Your search keyword '"in vivo studies"' showing total 2,905 results

1. Comparative Study of Cutaneous Squamous Cell Carcinogenesis in Different Hairless Murine Models.

Author

Gkikas, Georgios, Katsiris, Dimitrios, Vitsos, Andreas, Gioran, Anna, Ieronymaki, Dimitra, Kostaki, Maria, Ladopoulos, Georgios, Ioannidou, Vaya, Theodoraki, Elisavet, Chondrogianni, Niki, Sfiniadakis, Ioannis, Papaioannou, Georgios T., and Rallis, Michail Christou

Subjects

*SQUAMOUS cell carcinoma, *BIOLOGICAL models, *PATIENT selection, *RISK assessment, *HYPERCHOLESTEREMIA, *CANCER invasiveness, *HUMAN research subjects, *MELANINS, *BALDNESS, *ULTRAVIOLET radiation, *IN vivo studies, *MICE, *ANIMAL experimentation, *PROTEOLYTIC enzymes, *CHOLESTEROL, *COMPARATIVE studies, *DISEASE incidence, *IMMUNOSUPPRESSION, *DISEASE risk factors

Abstract

Simple Summary: Animal models are crucial for exploration of the causes of and potential treatments for squamous cell carcinoma, a common type of skin cancer. This study compared four different hairless mouse models to determine which is most suitable for studying skin cancer development when exposed to ultraviolet (UV) light. The models varied in their skin characteristics, such as the presence of melanin, cholesterol level, and immune system function. By monitoring various skin health parameters and analyzing proteasome activity, this study found that the SKH-hr2+ApoE and SKH-hr2 models were the most effective for further research into squamous cell carcinoma. In contrast, the SKH-hr1 model, despite its common use, was less suitable. These findings will help guide future research efforts in understanding and developing treatments for skin cancer. Background: In recent decades, a significant global increase in the incidence of non-melanoma skin cancer has been observed. To explore the pathogenesis of and potential therapeutic approaches for squamous cell carcinoma, various in vivo studies using mouse models have been conducted. However, investigations comparing different hairless mouse models, with or without melanin, as well as models with hypercholesterolemia and immunosuppression, in terms of their ability to induce squamous cell carcinoma have yet to be undertaken. Methods: Four mouse strains, namely SKH-hr1, SKH-hr2, SKH-hr2+ApoE, and immunodeficient Nude (Foxn1 knockout), were exposed to UVA and UVB radiation three times per week, initially to 1 Minimal Erythemal Dose (MED), incrementally increased weekly to a maximum dose of 3 MED. Clinical evaluation, photodocumentation, and biophysical parameters were monitored, along with proteasome protein activity and histopathological assessments. Results: The SKH-hr1 model primarily developed actinic keratosis without significant progression to invasive squamous cell carcinoma (SCC), while the SKH-hr2 and SKH-hr2+ApoE models exhibited a higher likelihood and intensity of papilloma and aggressive SCC formation, with the latter showing upregulated proteasome activity. Histopathological analysis confirmed the presence of poorly differentiated, invasive SCCs in the SKH-hr2 and SKH-hr2+ApoE models, contrasting with the less aggressive SCCs in the Nude mice and the mixed lesions observed in the SKH-hr1 mice. Conclusions: The SKH-hr2+ApoE and SKH-hr2 mice were identified as the most suitable for further exploration of squamous cell carcinogenesis. In contrast, the SKH-hr1 mice were found to be the least suitable, even though they are albino. Notably, proteasome analysis revealed a potential role of proteasome activity in squamous cell carcinogenesis. [ABSTRACT FROM AUTHOR]

Published

2024

2. Targeting the Leloir Pathway with Galactose-Based Antimetabolites in Glioblastoma.

Author

Sharpe, Martyn A., Ijare, Omkar B., Raghavan, Sudhir, Baskin, Alexandra M., Baskin, Brianna N., and Baskin, David S.

Subjects

*BIOLOGICAL models, *TISSUE arrays, *GLIOMAS, *ANTIMETABOLITES, *GLYCOSYLATION, *RESEARCH funding, *LECTINS, *DATA analysis, *T-test (Statistics), *IN vivo studies, *DESCRIPTIVE statistics, *POLYSACCHARIDES, *MICE, *ANIMAL experimentation, *WESTERN immunoblotting, *MOLECULAR structure, *STATISTICS, *SURVIVAL analysis (Biometry), *CELL survival, *MICROSCOPY

Abstract

Simple Summary: Glioblastoma (GBM) uses the Leloir pathway to catabolize D-Galactose (Gal) for tumor growth. Selective targeting of the Leloir pathway with Gal-based antimetabolites has potential for the treatment of GBM. Here, we tested the effect of a Gal-based antimetabolite, 4-deoxy-4-fluorogalactose (4DFG) on the viability and metabolism of GBM cells in culture. 4DFG is a good Glut3/Glut14 substrate and acts as a potent glioma chemotherapeutic. GBM cell cultures were used to examine toxicity and alterations in glycan composition. 4DFG is moderately potent against GBM cells in vitro (IC50: 125–300 µM). Glycosylation in GBM was disrupted by 4DFG. The effect of 4DFG on D-glucose (Glc) metabolism in GBM cells was assessed by using 13C NMR-based tracer studies. 13C-NMR-based metabolic flux analysis revealed that both glycolytic and mitochondrial metabolic fluxes of [U-13C]Glc were significantly decreased in the presence of 4DFG in GBM cells. Survival analysis in an intracranial mouse model during treatment with 4DFG (6 × 25 mg/kg of 4DFG, intravenously) showed improved outcomes by three-fold (p < 0.01). 4DFG is metabolized by GBM in vitro and in vivo, and is lethal to GBM tumors, but well tolerated in mice. A functional Gal-scavenging pathway in GBM allows Gal-based antimetabolites to act as chemotherapeutics. Background: Glioblastoma (GBM) uses Glut3 and/or Glut14 and the Leloir pathway to catabolize D-Galactose (Gal). UDP-4-deoxy-4-fluorogalactose (UDP-4DFG) is a potent inhibitor of the two key enzymes, UDP-galactose-4-epimerase (GALE) and UDP-Glucose 6-dehydrogenase (UGDH), involved in Gal metabolism and in glycan synthesis. The Gal antimetabolite 4-deoxy-4-fluorogalactose (4DFG) is a good substrate for Glut3/Glut14 and acts as a potent glioma chemotherapeutic. Methods: Primary GBM cell cultures were used to examine toxicity and alterations in glycan composition via lectin binding in fixed cells and by Western blots. Toxicity/efficacy in vivo data was performed in mouse flank and intracranial models. The effect of 4DFG on D-glucose (Glc) metabolism in GBM cells was assessed by using 13C NMR-based tracer studies. Results: 4DFG is moderately potent against GBM cells (IC50: 125–300 µM). GBM glycosylation is disrupted by 4DFG. Survival analysis in an intracranial mouse model showed that treatment with 4DFG (6 × 25 mg/kg of 4DFG, intravenously) improved outcomes by three-fold (p < 0.01). Metabolic flux analysis revealed that both glycolytic and mitochondrial metabolic fluxes of [U-13C]Glc were significantly decreased in the presence of 4DFG in GBM cells. Conclusion: A functional Gal-scavenging pathway in GBM allows Gal-based antimetabolites to act as chemotherapeutics. 4DFG is metabolized by GBM in vitro and in vivo, is lethal to GBM tumors, and is well tolerated in mice. [ABSTRACT FROM AUTHOR]

Published

2024

3. Cannabinoids—Multifunctional Compounds, Applications and Challenges—Mini Review.

Author

Duczmal, Dominik, Bazan-Wozniak, Aleksandra, Niedzielska, Krystyna, and Pietrzak, Robert

Subjects

*SYNTHETIC marijuana, *CANNABIDIOL, *DRUG marketing, *IN vivo studies, *EXPORT marketing, *CANNABINOID receptors

Abstract

Cannabinoids represent a highly researched group of plant-derived ingredients. The substantial investment of funds from state and commercial sources has facilitated a significant increase in knowledge about these ingredients. Cannabinoids can be classified into three principal categories: plant-derived phytocannabinoids, synthetic cannabinoids and endogenous cannabinoids, along with the enzymes responsible for their synthesis and degradation. All of these compounds interact biologically with type 1 (CB1) and/or type 2 (CB2) cannabinoid receptors. A substantial body of evidence from in vitro and in vivo studies has demonstrated that cannabinoids and inhibitors of endocannabinoid degradation possess anti-inflammatory, antioxidant, antitumour and antifibrotic properties with beneficial effects. This review, which spans the period from 1940 to 2024, offers an overview of the potential therapeutic applications of natural and synthetic cannabinoids. The development of these substances is essential for the global market of do-it-yourself drugs to fully exploit the promising therapeutic properties of cannabinoids. [ABSTRACT FROM AUTHOR]

Published

2024

4. Recent Progress in Terrestrial Biota Derived Antibacterial Agents for Medical Applications.

Author

Vladkova, Todorka G., Smani, Younes, Martinov, Boris L., and Gospodinova, Dilyana N.

Subjects

*ANTIBACTERIAL agents, *NATURAL products, *BACTERIAL diseases, *THERAPEUTICS, *IN vivo studies

Abstract

Conventional antibiotic and multidrug treatments are becoming less and less effective and the discovery of new effective and safe antibacterial agents is becoming a global priority. Returning to a natural antibacterial product is a relatively new current trend. Terrestrial biota is a rich source of biologically active substances whose antibacterial potential has not been fully utilized. The aim of this review is to present the current state-of-the-art terrestrial biota-derived antibacterial agents inspired by natural treatments. It summarizes the most important sources and newly identified or modified antibacterial agents and treatments from the last five years. It focuses on the significance of plant- animal- and bacteria-derived biologically active agents as powerful alternatives to antibiotics, as well as the advantages of utilizing natural antibacterial molecules alone or in combination with antibiotics. The main conclusion is that terrestrial biota-derived antibacterial products and substances open a variety of new ways for modern improved therapeutic strategies. New terrestrial sources of known antibacterial agents and new antibacterial agents from terrestrial biota were discovered during the last 5 years, which are under investigation together with some long-ago known but now experiencing their renaissance for the development of new medical treatments. The use of natural antibacterial peptides as well as combinational therapy by commercial antibiotics and natural products is outlined as the most promising method for treating bacterial infections. In vivo testing and clinical trials are necessary to reach clinical application. [ABSTRACT FROM AUTHOR]

Published

2024

5. The Use of Mesenchymal Stem/Stromal Cell-Derived Extracellular Vesicles in the Treatment of Osteoarthritis: Insights from Preclinical Studies.

Author

Jones, Mitch, Jones, Elena, and Kouroupis, Dimitrios

Subjects

*CARTILAGE regeneration, *EXTRACELLULAR vesicles, *ARTICULAR cartilage, *OSTEOARTHRITIS, *IN vivo studies

Abstract

Osteoarthritis (OA) is a prominent cause of disability, and has severe social and economic ramifications across the globe. The main driver of OA's pervasiveness is the fact that no current medical interventions exist to reverse or even attenuate the degeneration of cartilage within the articular joint. Crucial for cell-to-cell communication, extracellular vesicles (EVs) contribute to OA progression through the delivery of bioactive molecules in the inflammatory microenvironment. By repurposing this acellular means of signal transmission, therapeutic drugs may be administered to degenerated cartilage tissue in the hopes of encouraging regeneration. Positive outcomes are apparent in in vivo studies on this subject; however, for this therapy to prove itself in the clinical world, efforts towards standardizing the characterization, application, biological contents, and dosage are essential. [ABSTRACT FROM AUTHOR]

Published

2024

6. Development and Evaluation of a Cost-Effective, Carbon-Based, Extended-Release Febuxostat Tablet.

Author

Al-Ani, Israa Hamid, Hailat, Mohammad, Mohammed, Dina J., Matalqah, Sina Mahmoud, Abu Dayah, Alaa Azeez, Majeed, Bashar J. M., Awad, Riad, Filip, Lorena, and Abu Dayyih, Wael

Subjects

*ACTIVATED carbon, *PATIENT compliance, *FEBUXOSTAT, *INDUSTRIAL costs, *IN vivo studies

Abstract

This study outlines the development of a cost-effective, extended-release febuxostat (FEB) tablet using activated charcoal as an adsorbent to enhance drug release. FEB, a BCS Class II drug, presents formulation challenges due to low solubility and high lipophilicity. We evaluated eight formulations with varying FEB-to-charcoal ratios using FTIR and DSC for physical interactions and followed USP standards for overall assessment. The optimal 1:0.25 FEB-to-charcoal ratio demonstrated a consistent 12 h zero-order release pattern. In vivo studies indicated a significantly extended plasma profile compared to immediate-release tablets. The optimal tablets demonstrated acceptable hardness and disintegration times. This innovative approach enhances patient compliance, improves bioavailability, and reduces production costs, offering a promising solution for controlled FEB delivery. [ABSTRACT FROM AUTHOR]

Published

2024

7. A Novel Chimeric Oncolytic Virus Mediates a Multifaceted Cellular Immune Response in a Syngeneic B16 Melanoma Model.

Author

Glauß, Sonja, Neumeyer, Victoria, Hanesch, Lorenz, Marek, Janina, Hartmann, Nina, Wiedemann, Gabriela M., and Altomonte, Jennifer

Subjects

*MELANOMA treatment, *METABOLISM in viruses, *ONCOLYTIC virotherapy, *BIOLOGICAL models, *MELANOMA, *T cells, *MONONUCLEAR leukocytes, *T-test (Statistics), *STATISTICAL significance, *RESEARCH funding, *IMMUNOTHERAPY, *IN vivo studies, *REVERSE transcriptase polymerase chain reaction, *DESCRIPTIVE statistics, *MICE, *SPLEEN, *KAPLAN-Meier estimator, *LOG-rank test, *ANIMAL experimentation, *ONE-way analysis of variance, *DATA analysis software, *VIRUSES, *IMMUNITY

Abstract

Simple Summary: Cancer immunotherapy has evolved rapidly in the last decade. A newly emerging immunotherapeutic approach utilizes oncolytic viruses to enhance the ability of the body's own immune system to recognize and clear tumor cells. We have recently developed a novel chimeric oncolytic virus and demonstrated its anti-tumoral effects in various preclinical mouse models. To gain mechanistic insights into the immune response to this form of therapy at the cellular level and to identify targets to potentially further improve the therapy, we analyzed the immune cell signature in the tumors, blood, and lymphoid tissue in a syngeneic melanoma mouse model by flow cytometry. Both local and systemic immune responses were observed. Furthermore, selective depletion of cytotoxic T cells indicated that these cells are the main players in mediating the therapeutic response to this novel virotherapy. Background/Objectives: Oncolytic virotherapy is a promising approach in cancer immunotherapy. We have previously described a recombinant hybrid oncolytic virus (OV), VSV-NDV, which has a favorable safety profile and therapeutic immunogenicity, leading to direct oncolysis, abscopal effects, and prolonged survival in syngeneic in vivo tumor models. While OVs are known to mediate systemic anti-tumor immune responses, the detailed characterization of local and systemic immune responses to fusogenic oncolytic virotherapy remains unexplored. Methods and Results: We analyzed immune cell compartments in the spleen, blood, tumor-draining lymph nodes (TDLNs), and tumors over the course of VSV-NDV therapy in a bilateral syngeneic melanoma mouse model. Our results revealed significant local infiltration and activation of T lymphocytes in tumors and globally in the blood and spleen. Notably, in vivo CD8+ T cell depletion led to complete abrogation of the tumor response, highlighting the crucial role of T cells in promoting the therapeutic effects of oncolytic VSV-NDV. In vitro co-culture experiments enabled the interrogation of human immune cell responses to VSV-NDV-mediated oncolysis. Human peripheral blood mononuclear cells (PBMCs) were efficiently stimulated by exposure to VSV-NDV-infected cancer cells, which recapitulates the in vivo murine findings. Conclusions: Taken together, these data characterize a broad anti-tumor immune cell response to oncolytic VSV-NDV therapy and suggest that CD8+ T cells play a decisive role in therapeutic outcome, which supports the further development of this chimeric vector as a multimechanistic immunotherapy for solid cancers. [ABSTRACT FROM AUTHOR]

Published

2024

8. Combined PET Radiotracer Approach Reveals Insights into Stromal Cell-Induced Metabolic Changes in Pancreatic Cancer In Vitro and In Vivo.

Author

Doctor, Alina, Laube, Markus, Meister, Sebastian, Kiss, Oliver C., Kopka, Klaus, Hauser, Sandra, and Pietzsch, Jens

Subjects

*IN vitro studies, *GLUCOSE, *BIOLOGICAL models, *RESEARCH funding, *CANCER, *ANIMALS, *CELL physiology, *POSITRON emission tomography, *RADIOISOTOPES, *DESCRIPTIVE statistics, *IN vivo studies, *TUMOR markers, *XENOGRAFTS, *PANCREATIC tumors, *MICE, *CELL lines, *FIBROBLASTS, *BIOTRANSFORMATION (Metabolism), *DUCTAL carcinoma, *STROMAL cells, *HYPOXEMIA

Abstract

Simple Summary: Pancreatic cancer is surrounded by a dense fibrotic environment due to the activity of pancreatic stellate cells (PSCs). This hinders the effectiveness of treatment by limiting drug penetration and oxygen delivery. To better understand this, PSCs and cancer cells were studied in laboratory models using radiotracer imaging techniques. The results indicated that while glucose uptake and hypoxia were similar between cancer cells alone and in combination with PSCs, a specific marker of fibrosis (FAPα) was significantly higher in PSC-rich environments. In mice, the marker in question decreased in tumors with only PSCs, indicating that the cells had died. Conversely, the biomarker increased over time in tumors containing both cancer cells and PSCs, suggesting that mouse cells had invaded. This study sheds light on how the tumor environment influences metabolism and thus provides insights for more targeted theranostic applications. In turn, this approach supports the development of more reliable models. Background/Objective Pancreatic stellate cells (PSCs) in pancreatic adenocarcinoma (PDAC) are producing extracellular matrix, which promotes the formation of a dense fibrotic microenvironment. This makes PDAC a highly heterogeneous tumor-stroma-driven entity, associated with reduced perfusion, limited oxygen supply, high interstitial fluid pressure, and limited bioavailability of therapeutic agents. Methods In this study, spheroid and tumor xenograft models of human PSCs and PanC-1 cells were characterized radiopharmacologically using a combined positron emission tomography (PET) radiotracer approach. [18F]FDG, [18F]FMISO, and [18F]FAPI-74 were employed to monitor metabolic activity, hypoxic metabolic state, and functional expression of fibroblast activation protein alpha (FAPα), a marker of activated PSCs. Results In vitro, PanC-1 and multi-cellular tumor spheroids demonstrated comparable glucose uptake and hypoxia, whereas FAPα expression was significantly higher in PSC spheroids. In vivo, glucose uptake as well as the transition to hypoxia were comparable in PanC-1 and multi-cellular xenograft models. In mice injected with PSCs, FAPα expression decreased over a period of four weeks post-injection, which was attributed to the successive death of PSCs. In contrast, FAPα expression increased in both PanC-1 and multi-cellular xenograft models over time due to invasion of mouse fibroblasts. Conclusion The presented models are suitable for subsequently characterizing stromal cell-induced metabolic changes in tumors using noninvasive molecular imaging techniques. [ABSTRACT FROM AUTHOR]

Published

2024

9. Theranostic Approaches for Gastric Cancer: An Overview of In Vitro and In Vivo Investigations.

Author

Basirinia, Ghazal, Ali, Muhammad, Comelli, Albert, Sperandeo, Alessandro, Piana, Sebastiano, Alongi, Pierpaolo, Longo, Costanza, Di Raimondo, Domenico, Tuttolomondo, Antonino, and Benfante, Viviana

Subjects

*IN vitro studies, *GLUTATHIONE, *STOMACH tumors, *RADIATION, *IMMUNOTHERAPY, *OLIGOPEPTIDES, *TREATMENT effectiveness, *IN vivo studies, *NEOVASCULARIZATION inhibitors, *TUMOR markers, *ONCOGENES, *NANOTECHNOLOGY, *GROWTH factors, *INDIVIDUALIZED medicine, *EARLY diagnosis, *ACCURACY, *NANOPARTICLES, *SENSITIVITY & specificity (Statistics), *MOLECULAR pathology, *CELL receptors, *NEUROTENSIN

Abstract

Simple Summary: Gastric cancer (GC) represents a major global health challenge, ranking as the second leading cause of cancer-related deaths. The high mortality rate is primarily due to late-stage diagnoses, which limit effective treatment options. Recent research emphasizes the development of targeted therapies and radiation immunotherapy as promising alternatives to traditional approaches. The review authors summarize recent advancements in targeted therapies for gastric cancer, focusing on both laboratory and clinical studies. They explore targeted approaches that have shown potential for improving diagnostic accuracy and treatment effectiveness. The findings of this paper may significantly impact the research community by highlighting the importance of personalized medicine in gastric cancer treatment. By identifying specific molecular targets and utilizing nanotechnology for drug delivery, these advancements aim to enhance treatment efficacy while minimizing systemic toxicity. Overall, the review suggests the potential for improved prognosis and treatment strategies through targeted therapies and precision medicine. Gastric cancer (GC) is the second most common cause of cancer-related death worldwide and a serious public health concern. This high death rate is mostly caused by late-stage diagnoses, which lead to poor treatment outcomes. Radiation immunotherapy and targeted therapies are becoming increasingly popular in GC treatment, in addition to surgery and systemic chemotherapy. In this review, we have focused on both in vitro and in vivo research, which presents a summary of recent developments in targeted therapies for gastric cancer. We explore targeted therapy approaches, including integrin receptors, HER2, Claudin 18, and glutathione-responsive systems. For instance, therapies targeting the integrin receptors such as the αvβ3 and αvβ5 integrins have shown promise in enhancing diagnostic precision and treatment efficacy. Furthermore, nanotechnology provides novel approaches to targeted drug delivery and imaging. These include glutathione-responsive nanoplatforms and cyclic RGD peptide-conjugated nanoparticles. These novel strategies seek to reduce systemic toxicity while increasing specificity and efficacy. To sum up, the review addresses the significance of personalized medicine and advancements in gastric cancer-targeted therapies. It explores potential methods for enhancing gastric cancer prognosis and treatment in the future. [ABSTRACT FROM AUTHOR]

Published

2024

10. ANKRD1 Promotes Breast Cancer Metastasis by Activating NF- κ B-MAGE-A6 Pathway.

Author

Diskul-Na-Ayudthaya, Penchatr, Bae, Seon Joo, Bae, Yun-Ui, Van, Ngu Trinh, Kim, Wootae, and Ryu, Seongho

Subjects

*PROTEINS, *NF-kappa B, *IN vitro studies, *RESEARCH funding, *SURVIVAL rate, *BREAST tumors, *EARLY detection of cancer, *CELL motility, *CELLULAR signal transduction, *TREATMENT effectiveness, *IN vivo studies, *TUMOR markers, *METASTASIS, *CELL lines

Abstract

Simple Summary: Change in protein expression is the key driving force for tumorigenesis. Increased expression of Ankyrin Repeat Domain 1 (ANKRD1) acts as a co-activator of the p53 tumor suppressor protein and is associated with cancer drug resistance and poor survival of cancer patients. In this study, we found increased levels of ANKRD1 in highly metastatic breast cancer cell lines and human tissues of high-grade breast cancer. We also demonstrated that ANKRD1 is upstream of NF-κB-MAGE-A6 and plays a role in cancer metastasis. Our results show that the expression of ANKRD1 has significant clinical diagnostic significance in breast cancer metastasis. Early detection and surgical excision of tumors have helped improve the survival rate of patients with breast cancer. However, patients with metastatic cancer typically have a poor prognosis. In this study, we propose that ANKRD1 promotes metastasis of breast cancer. ANKRD1 was found to be highly expressed in the MDA-MB-231 and MDA-LM-2 highly metastatic breast cancer cell lines compared to the non-metastatic breast cancer cell lines (MCF-7, ZR-75-30, T47D) and normal breast cancer cells (MCF-10A). Furthermore, high-grade tumors showed increased levels of ANKRD1 compared to low-grade tumors. Both in vitro and in vivo functional studies demonstrated the essential role of ANKRD1 in cancer cell migration and invasion. The previous studies have suggested a significant role of NF-κB and MAGE-A6 in breast cancer metastasis, but the upstream regulators of this axis are not well characterized. Our study suggests that ANKRD1 promotes metastasis of breast cancer by activating NF-κB as well as MAGE-A6 signaling. Our findings show that ANKRD1 is a potential therapeutic target and a diagnostic marker for breast cancer metastasis. [ABSTRACT FROM AUTHOR]

Published

2024

11. Impact of Optimized Ku–DNA Binding Inhibitors on the Cellular and In Vivo DNA Damage Response.

Author

Mendoza-Munoz, Pamela L., Kushwaha, Narva Deshwar, Chauhan, Dineshsinha, Ali Gacem, Karim Ben, Garrett, Joy E., Dynlacht, Joseph R., Charbonnier, Jean-Baptiste, Gavande, Navnath S., and Turchi, John J.

Subjects

*RADIOTHERAPY, *BIOLOGICAL models, *RESEARCH funding, *BRCA genes, *PHOSPHORYLATION, *CELL physiology, *CELL proliferation, *IN vivo studies, *XENOGRAFTS, *DESCRIPTIVE statistics, *MICE, *CELL lines, *IMMUNOHISTOCHEMISTRY, *DNA repair, *ANIMAL experimentation, *MOLECULAR structure, *WESTERN immunoblotting, *TUMORS, *LUNG cancer, *DATA analysis software, *STAINS & staining (Microscopy), *ELECTROPHORESIS, *DNA-binding proteins, *CHEMICAL inhibitors

Abstract

Simple Summary: DNA-dependent protein kinase (DNA-PK) is a key player in repairing DNA damage. Ku proteins detect DNA damage and activate DNA-PK. Blocking DNA-PK can make cancer treatments such as radiation more effective. We have developed Ku–DNA binding inhibitors (Ku-DBis) that stop DNA-PK activation, making cancer cells more sensitive to radiation. We recently discovered new Ku-DBis that enter cells better than predecessor compounds, allowing cellular and in vivo analyses. Some non-small cell lung cancer (NSCLC) cells, especially those lacking ATM, were very sensitive to these inhibitors and radiation. However, cells lacking BRCA1 were resistant, which reduced the effectiveness of radiation. In animal studies of NSCLC, Ku-DBi treatment inhibited DNA-PK and enhanced a radiation-dependent decrease in tumor cell proliferation. This is the first time a Ku-targeted inhibitor has been shown to work in living organisms, suggesting their potential application in cancer treatment. Background: DNA-dependent protein kinase (DNA-PK) is a validated cancer therapeutic target involved in DNA damage response (DDR) and non-homologous end-joining (NHEJ) repair of DNA double-strand breaks (DSBs). Ku serves as a sensor of DSBs by binding to DNA ends and activating DNA-PK. Inhibition of DNA-PK is a common strategy to block DSB repair and improve efficacy of ionizing radiation (IR) therapy and radiomimetic drug therapies. We have previously developed Ku–DNA binding inhibitors (Ku-DBis) that block in vitro and cellular NHEJ activity, abrogate DNA-PK autophosphorylation, and potentiate cellular sensitivity to IR. Results and Conclusions: Here we report the discovery of oxindole Ku-DBis with improved cellular uptake and retained potent Ku-inhibitory activity. Variable monotherapy activity was observed in a panel of non-small cell lung cancer (NSCLC) cell lines, with ATM-null cells being the most sensitive and showing synergy with IR. BRCA1-deficient cells were resistant to single-agent treatment and antagonistic when combined with DSB-generating therapies. In vivo studies in an NSCLC xenograft model demonstrated that the Ku-DBi treatment blocked IR-dependent DNA-PKcs autophosphorylation, modulated DDR, and reduced tumor cell proliferation. This represents the first in vivo demonstration of a Ku-targeted DNA-binding inhibitor impacting IR response and highlights the potential therapeutic utility of Ku-DBis for cancer treatment. [ABSTRACT FROM AUTHOR]

Published

2024

12. Xeroderma Pigmentosum Type C Primary Skin Fibroblasts Overexpress HGF and Promote Squamous Cell Carcinoma Invasion in the Absence of Genotoxic Stress.

Author

Al-qaraghuli, Sahar, Gache, Yannick, Goncalves-Maia, Maria, Alcor, Damien, Muzotte, Elodie, Mahfouf, Walid, Rezvani, Hamid-Reza, and Magnaldo, Thierry

Subjects

*SQUAMOUS cell carcinoma, *IN vitro studies, *RESEARCH funding, *CANCER invasiveness, *MELANOMA, *ULTRAVIOLET radiation, *XERODERMA pigmentosum, *DNA, *IN vivo studies, *SKIN, *FIBROBLASTS, *LIVER cells, *MUTAGENICITY testing, *NUCLEOTIDES, *CELL lines, *GROWTH factors, *EXTRACELLULAR matrix, *NATURAL immunity

Abstract

Simple Summary: Xeroderma pigmentosum (XP) is a very rare recessive disease caused by the incapacity to resolve ultraviolet-induced DNA lesions through Nucleotide Excision Repair (NER). Some XP patients suffer from aggressive skin carcinoma and melanoma at a very early age (<8). Our previous results show that primary XP fibroblasts isolated from healthy, non-photo-exposed skin negatively impact the extracellular matrix and the activation of the innate immune system. Here, we show for the first time that XP group C primary fibroblasts also play a major role in cancer cell invasion ex vivo and in vivo through the overexpression of Hepatocyte Growth Factor/Scatter Factor (HGF/SF) in the absence of genotoxic attacks. Using inhibitors of the activation of the HGF/SF pathway counteracted the effects of XP fibroblasts on the growth of cancer cells, suggesting new perspectives in the care of XP patients. Xeroderma pigmentosum (XP) is a very rare recessive disease caused by the incapacity to resolve ultraviolet-induced DNA lesions through Nucleotide Excision Repair (NER). Most XP patients suffer from aggressive skin carcinoma and melanoma at a very early age (<8). Our previous results showed that primary XP fibroblasts isolated from healthy (non-photo-exposed) skin negatively impact the extracellular matrix and fail to activate the innate immune system. Here, we show for the first time that XP-C fibroblasts also play a major role in cancer cell invasion ex vivo and in vivo through the overexpression of Hepatocyte Growth Factor/Scatter Factor (HGF/SF) in the absence of genotoxic attacks. The use of inhibitors of the activation of the HGF/SF pathway counteracted the effects of XP fibroblasts on the growth of cancer cells, suggesting new perspectives in the care of XP patients. [ABSTRACT FROM AUTHOR]

Published

2024

13. Induction of Invasive Basal Phenotype in Triple-Negative Breast Cancers by Long Noncoding RNA BORG.

Author

Niazi, Farshad, Parker, Kimberly A., Mason, Sara J., Singh, Salendra, Schiemann, William P., and Valadkhan, Saba

Subjects

*IN vitro studies, *CANCER invasiveness, *EPITHELIAL-mesenchymal transition, *RESEARCH funding, *BREAST tumors, *IN vivo studies, *RNA, *GENE expression, *MICE, *LONGITUDINAL method, *ANIMAL experimentation, *STEM cells, *PHENOTYPES

Abstract

Simple Summary: Breast cancer remains a major health issue in the United States and around the world. While progress has been made in curing most types of breast cancer, there are currently no effective cures for a subtype called 'triple-negative' breast cancer. We have identified a gene named BORG that, based on experiments in cultured human cells and mice, plays an important role in triple-negative breast cancer. Here, we study the function of this gene in a large group of human triple-negative breast cancers and show that when the level of expression of this gene is high, tumors become more invasive and develop 'triple-negative'-like properties. Even in non-triple-negative tumors, high levels of expression of this gene are associated with more aggressive tumor behavior and poor response to therapy. Based on these validation studies in human tumors, we hope to leverage mechanistic vulnerabilities in BORG action to one day advance novel therapeutic strategies to alleviate hard-to-cure triple-negative breast tumors. Background/Objectives: Long noncoding RNAs (lncRNAs) are known to play key roles in breast cancers; however, detailed mechanistic studies of lncRNA function have not been conducted in large cohorts of breast cancer tumors, nor has inter-donor and inter-subtype variability been taken into consideration for these analyses. Here we provide the first identification and annotation of the human BORG lncRNA gene. Methods/Results: Using multiple tumor cohorts of human breast cancers, we show that while BORG expression is strongly induced in breast tumors as compared to normal breast tissues, the extent of BORG induction varies widely between breast cancer subtypes and even between different tumors within the same subtype. Elevated levels of BORG in breast tumors are associated with the acquisition of core cancer aggression pathways, including those associated with basal tumor and pluripotency phenotypes and with epithelial–mesenchymal transition (EMT) programs. While a subset of BORG-associated pathways was present in high BORG-expressing tumors across all breast cancer subtypes, many were specific to tumors categorized as triple-negative breast cancers. Finally, we show that genes induced by heterologous expression of BORG in murine models of TNBC both in vitro and in vivo strongly overlap with those associated with high BORG expression levels in human TNBC tumors. Conclusion: Our findings implicate human BORG as a novel driver of the highly aggressive basal TNBC tumor phenotype. [ABSTRACT FROM AUTHOR]

Published

2024

14. Raman Spectroscopy for Instant Bladder Tumor Diagnosis: System Development and In Vivo Proof-Of-Principle Study in Accordance with the European Medical Device Regulation (MDR2017/745).

Author

Latka, Ines, Mogensen, Karin, Knorr, Florian, Kuzucu, Cansu, Windirsch, Florian, Sandic, Dragan, Popp, Jürgen, Hermann, Gregers G., and Schie, Iwan W.

Subjects

*RAMAN spectroscopy, *CANCER invasiveness, *RESEARCH funding, *PILOT projects, *ENDOSCOPIC surgery, *CYTOCHEMISTRY, *IN vivo studies, *SURVEYS, *MEDICAL equipment laws, *USER-centered system design, *ENDOSCOPY, BLADDER tumors

Abstract

Simple Summary: Raman spectroscopy is a label-free optical method that has proven its suitability for the discrimination between cancerous and noncancerous tissue. Bladder cancer diagnosis typically relies on excisional biopsies and histopathology, which are considered the gold standard. Here, we want to use an endoscopic setup to demonstrate the applicability of Raman spectroscopy in a clinical in vivo setting. In the European Union, the regulatory framework is given by the Medical Device Regulation. We describe the path and the necessary effort to be able to conduct a clinical investigation within this framework. The aim of this clinical examination was to perform Raman spectroscopy in the living bladder and to record Raman spectra of normal and tumorous bladder tissue and to determine the degree of bladder tumor in a post-processing step. The open prospective study includes 21 patients and presents preliminary results for the diagnostic abilities of our approach. This work reports on an in vivo Raman-based endoscopy system, invaScope, enabling Raman measurements of healthy and tumor bladder tissue during an endoscopic procedure in the operating theatre. The presented study outlines the progression from the initial concept (validated through previously performed ex vivo studies) to the approval and implementation of a clinical investigational device according to the requirement within the framework of the European Medical Device Regulation (MDR2017/745). The study's primary objective was to employ the invaScope Raman system within the bladder, capturing in vivo spectroscopic Raman data followed by standard histo- and cytopathological examinations of urological tissue (considered the gold standard). The collected data were analyzed and correlated with histopathological findings post-procedure. Additionally, the study aimed to assess the feasibility of using diagnostic equipment, probes, and software for application in a clinical setting, evaluating usability aspects that are important during surgical procedures. This research represents a pivotal step toward advancing Raman spectroscopy for routine clinical use in characterizing bladder lesions. [ABSTRACT FROM AUTHOR]

Published

2024

15. Okanin Inhibits Cell Growth and Induces Apoptosis and Pyroptosis in Oral Cancer.

Author

Chia, Wei-Tso, Chen, Kuei-Yuan, Yang, Cheng-Yu, Hsieh, Cheng-Chih, Tsao, Chang-Huei, Lin, Chih-Kung, Peng, Bo, Ho, Sien-Lin, Chen, Yi-Ling, Chang, Szu-Chien, and Chen, Yuan-Wu

Subjects

*METHYLENE blue, *FLOW cytometry, *MOUTH tumors, *COLONY-forming units assay, *T-test (Statistics), *RESEARCH funding, *FLAVONOIDS, *APOPTOSIS, *CHALONES, *ENZYME-linked immunosorbent assay, *IN vivo studies, *CELL cycle, *XENOGRAFTS, *DESCRIPTIVE statistics, *PLANT extracts, *CELL lines, *IMMUNOHISTOCHEMISTRY, *MOLECULAR structure, *WESTERN immunoblotting, *STAINS & staining (Microscopy), *CELL survival, *COMPARATIVE studies, *DATA analysis software, *CASPASES

Abstract

Simple Summary: Oral cancer is a challenging disease to treat, and new therapies are needed to improve patient outcomes. Okanin, a natural compound derived from Bidens pilosa L., has been known for its anti-inflammatory properties, but its effects on cancer, particularly oral cancer, are less understood. In this study, we investigated the anticancer potential of okanin in human oral cancer cells. Our results showed that okanin effectively reduced the growth of oral cancer cells by inducing cell death through mechanisms involving both apoptosis and pyroptosis. Additionally, okanin inhibited tumor growth in a mouse model of oral cancer. These findings suggest that okanin may be a promising natural compound for developing new treatments for oral cancer. Background: Okanin, a flavonoid compound derived from Bidens pilosa L., has garnered attention for its anti-inflammatory properties. Although Bidens pilosa is commonly used in healthcare products and functional foods, the anticancer potential of okanin, particularly in oral cancer, remains underexplored. This study aims to investigate the effects of okanin on oral cancer cell lines and its potential as a therapeutic agent. Methods: The study involved assessing the cytotoxic effects of okanin on oral cancer cell lines SAS, SCC25, HSC3, and OEC-M1. The IC50 values were determined using methylene blue assays, and the clonogenic capacity was evaluated through colony formation assays. Flow cytometry was used to analyze cell cycle progression and apoptosis. Caspase-3/7 activity assays and annexin V/7-AAD staining confirmed the induction of apoptosis and pyroptosis. In vivo efficacy was assessed using a SAS xenograft model, and immunohistochemical analysis of xenograft tissue was performed to examine pyroptosis-related markers. Results: Okanin exhibited potent cytotoxic effects with IC50 values of 12.0 ± 0.8, 58.9 ± 18.7, 18.1 ± 5.3, and 43.2 ± 6.2 μM in SAS, SCC25, HSC3, and OEC-M1 cells, respectively. It caused dose- and time-dependent reductions in cell viability and significantly impaired clonogenic capacity. Flow cytometry revealed G2/M cell cycle arrest and increased sub-G1 population, indicating cell cycle disruption and death. Okanin induced both apoptosis and pyroptosis, as confirmed by caspase-3/7 activity and annexin V/7-AAD staining. In vivo, okanin reduced tumor growth and involved pyroptosis-related markers such as CASP1, GSDMC, GSDMD, and GSDME. Conclusions: Okanin demonstrates significant anticancer potential, particularly in oral cancer, by inducing both apoptosis and pyroptosis. Its efficacy in reducing tumor growth in vivo further supports its potential as a novel therapeutic option. Further mechanistic studies are needed to elucidate the pathways involved in okanin-mediated cell death and to explore its clinical applications. [ABSTRACT FROM AUTHOR]

Published

2024

16. Combination of JAKi and HDACi Exerts Antiangiogenic Potential in Cutaneous T-Cell Lymphoma.

Author

Karagianni, Fani, Piperi, Christina, Valero-Diaz, Sara, Amato, Camilla, Vaque, Jose Pedro, Casar, Berta, and Papadavid, Evangelia

Subjects

*THERAPEUTIC use of antineoplastic agents, *EMBRYOS, *IN vitro studies, *RESEARCH funding, *ENZYME inhibitors, *POULTRY, *NEOVASCULARIZATION inhibitors, *TREATMENT effectiveness, *IN vivo studies, *CELL motility, *DESCRIPTIVE statistics, *CUTANEOUS T-cell lymphoma, *JANUS kinases, *ANIMAL experimentation, *NEUROTRANSMITTER uptake inhibitors

Abstract

Simple Summary: The combination of JAK/HDAC inhibitors shows beneficial effects in hematological malignancies and a promising therapeutic potential in CTCL. Recent in vitro and in vivo data have shown that the combination of Resminostat (HDACi) with Ruxolitinib (Jaki) acts synergistically and inhibits tumorigenesis and metastasis in CTCL experimental models. Angiogenesis is the most critical process for tumor growth and metastasis and plays an essential role in cutaneous lymphoma development and progression. The vascular microenvironment of lymphomas accelerates angiogenesis via the paracrine activity of tumor-derived mediators. However, few studies have investigated the role of either ruxolitinib or resminostat in the angiogenesis of hematological malignancies and solid tumors. Although precise mechanisms of angiogenesis in CTCL remain unclear, the chick embryo chorioallantoic membrane (CAM) has been used, among other in vivo models, to implant several tumor types as well as malignant cell lines to study their growth rate, angiogenic potential, and metastatic capability. The aim of this study was to investigate the effects of combinational therapies of JAKi/HDACi in CTCL angiogenesis by using a CTCL-specific chick embryo model. Angiogenesis plays a pivotal role in the growth and metastasis of tumors, including the development and progression of cutaneous lymphomas. The chick embryo CAM model has been utilized in various studies to assess the growth rate, angiogenic potential, and metastatic capability of different tumor types and malignant cell lines. However, the precise mechanisms of angiogenesis in CTCL and the influence of Ruxolitinib or Resminostat on angiogenesis in hematological malignancies and solid tumors are not well understood. Recent in vitro and in vivo data have demonstrated the synergistic inhibition of tumorigenesis and metastasis in experimental models of CTCL when using the combination of Resminostat (HDACi) with Ruxolitinib (JAKi). The present work aims to elucidate the effects of this combination on the tumor microenvironment's vascular components. We investigated the effects of Ruxolitinib (JAKi) in combination with Resminostat (HDACi) treatment in transendothelial migration of CTCL cells (106 MyLa and SeAx) by using a transwell-based transendothelial migration assay and tumor angiogenesis in vivo. We used the CTCL chick embryo CAM model with xenografted tumors derived from implanted MyLa and SeAx cells and administered topically 15 μM ruxolitinib and 5 μM Resminostat every two days during a 5-day period. JAKi and HDACi inhibited CTCL cell transendothelial migration by 75% and 82% (p < 0.05) in both CTCL engrafted cells (MyLa and SeAx, respectively) compared to the untreated group. Moreover, the combination of ruxolitinib with resminostat blocked angiogenesis by significantly reducing the number of blood vessel formation by 49% and 34% in both MyLa and SeAx, respectively (p < 0.05), indicating that the proposed combination exerted significant anti-angiogenic effects in the CAM CTCL model. Overall, these data provide valuable insights into potential therapeutic strategies targeting angiogenesis in CTCL, paving the way for more effective treatment approaches in the future. [ABSTRACT FROM AUTHOR]

Published

2024

17. GABA(A) Receptor Activation Drives GABARAP–Nix Mediated Autophagy to Radiation-Sensitize Primary and Brain-Metastatic Lung Adenocarcinoma Tumors.

Author

Bhattacharya, Debanjan, Barrile, Riccardo, Toukam, Donatien Kamdem, Gawali, Vaibhavkumar S., Kallay, Laura, Ahmed, Taukir, Brown, Hawley, Rezvanian, Sepideh, Karve, Aniruddha, Desai, Pankaj B., Medvedovic, Mario, Wang, Kyle, Ionascu, Dan, Harun, Nusrat, Vallabhapurapu, Subrahmanya, Wang, Chenran, Qi, Xiaoyang, Baschnagel, Andrew M., Kritzer, Joshua A., and Cook, James M.

Subjects

*PROTEINS, *ADENOCARCINOMA, *IN vitro studies, *AUTOPHAGY, *MITOCHONDRIA, *DATA analysis, *RESEARCH funding, *POLYMERASE chain reaction, *IN vivo studies, *FLUORESCENT antibody technique, *XENOGRAFTS, *DESCRIPTIVE statistics, *RADIATION-sensitizing agents, *METASTASIS, *CYTOTOXINS, *CELL lines, *IMMUNOHISTOCHEMISTRY, *KAPLAN-Meier estimator, *MOLECULAR structure, *ONE-way analysis of variance, *STATISTICS, *LUNG cancer, *STAINS & staining (Microscopy), *CELL survival, *DATA analysis software, *CELL receptors, *GABA, *BRAIN tumors, *ELECTROPHYSIOLOGY, *IMMUNOBLOTTING, *CHEMICAL inhibitors

Abstract

Simple Summary: Non-small cell lung cancer (NSCLC) accounts for 80–85% of primary lung cancers. Radiation therapy is widely used to treat both primary NSCLC and lung cancer that has spread to the brain. However, radiotherapy responses are not durable and toxicity limits therapy. Therefore, there is an urgent need for new agents that can enhance the effectiveness of radiation therapy in lung cancer and reduce its toxicity. We find that AM-101, a benzodiazepine analog, enhances the effects of radiation and significantly improves the survival of mice with lung cancer brain-metastatic tumors. Additionally, AM-101 makes radiation treatment work better and slows down the growth of NSCLC subcutaneous xenograft tumors in mice. AM-101 activates the GABA(A) receptor in lung cancer cells, triggering selective autophagy by causing GABARAP to form multimers and stabilizing the mitochondrial receptor Nix. GABA(A) receptor activation may improve tumor control and allow for lower radiation doses, reducing toxicity. In non-small cell lung cancer (NSCLC) treatment, radiotherapy responses are not durable and toxicity limits therapy. We find that AM-101, a synthetic benzodiazepine activator of GABA(A) receptor, impairs the viability and clonogenicity of both primary and brain-metastatic NSCLC cells. Employing a human-relevant ex vivo 'chip', AM-101 is as efficacious as docetaxel, a chemotherapeutic used with radiotherapy for advanced-stage NSCLC. In vivo, AM-101 potentiates radiation, including conferring a significant survival benefit to mice bearing NSCLC intracranial tumors generated using a patient-derived metastatic line. GABA(A) receptor activation stimulates a selective-autophagic response via the multimerization of GABA(A) receptor-associated protein, GABARAP, the stabilization of mitochondrial receptor Nix, and the utilization of ubiquitin-binding protein p62. A high-affinity peptide disrupting Nix binding to GABARAP inhibits AM-101 cytotoxicity. This supports a model of GABA(A) receptor activation driving a GABARAP–Nix multimerization axis that triggers autophagy. In patients receiving radiotherapy, GABA(A) receptor activation may improve tumor control while allowing radiation dose de-intensification to reduce toxicity. [ABSTRACT FROM AUTHOR]

Published

2024

18. Inhibition of Insulin-like Growth Factor 1 Receptor/Insulin Receptor Signaling by Small-Molecule Inhibitor BMS-754807 Leads to Improved Survival in Experimental Esophageal Adenocarcinoma.

Author

Hassan, Md Sazzad, Johnson, Chloe, Ponna, Saisantosh, Scofield, Dimitri, Awasthi, Niranjan, and von Holzen, Urs

Subjects

*ADENOCARCINOMA, *IN vitro studies, *WOUND healing, *COMBINATION drug therapy, *T-test (Statistics), *STATISTICAL significance, *RESEARCH funding, *CELL proliferation, *APOPTOSIS, *ESOPHAGEAL tumors, *CELLULAR signal transduction, *IN vivo studies, *CELL motility, *DESCRIPTIVE statistics, *SMALL molecules, *MICE, *CELL lines, *LOG-rank test, *ANIMAL experimentation, *CELL death, *WESTERN immunoblotting, *PACLITAXEL, *SURVIVAL analysis (Biometry), *DATA analysis software, *CELL receptors

Abstract

Simple Summary: Esophageal adenocarcinoma (EAC) is one of the deadliest malignancies in the United States (US) and the only major cancer in the US with an increasing incidence. Although recent advances have been made in surgery, radiation, and systemic medications, outcomes remain poor. Therefore, new beneficial treatment approaches are crucially desired. Obesity is associated with EAC and abnormalities in insulin-like growth factor-1 (IGF-1) and insulin signaling. However, the effect of blocking IGF-1 receptor/insulin receptor (IGF-1 R/IR) signaling is not well studied in EAC. Here, BMS-754807, a robust small-molecule inhibitor of IGF-1R/IR signaling, inhibited not only EAC cell growth but also EAC cell migration both as a monotherapy and in combination with the chemotherapy nanoparticle albumin-bound paclitaxel (nab-paclitaxel). In addition, BMS-754807 along with nab-paclitaxel significantly reduced EAC mice tumor growth, with enhanced mice survival. Interestingly, the combination of BMS-754807 and nab-paclitaxel showed an additive effect on tumor growth inhibition and survival benefit, indicating this combination as a novel option for EAC therapy. The insulin-like growth factor-1 (IGF-1) and insulin axes are upregulated in obesity and obesity-associated esophageal adenocarcinoma (EAC). Nanoparticle albumin-bound paclitaxel (nab-paclitaxel) is a contemporary nanotechnology-based paclitaxel (PT) bound to human albumin, ensuring its solubility in water rather than a toxic solvent. Here, we examined the benefits of inhibiting insulin-like growth factor-1 receptor/insulin receptor (IGF-1/IR) signaling and the enhancement of nab-paclitaxel effects by inclusion of the small-molecule inhibitor BMS-754807 using both in vitro and in vivo models of EAC. Using multiple EAC cell lines, BMS-754807 and nab-paclitaxel were evaluated as mono and combination therapies for in vitro effects on cell proliferation, cell death, and cell movement. We then analyzed the in vivo anticancer potency with survival improvement with BMS-754807 and nab-paclitaxel mono and combination therapies. BMS-754807 monotherapy suppressed in vitro cell proliferation and wound healing while increasing apoptosis. BMS-754807, when combined with nab-paclitaxel, enhanced those effects on the inhibition of cell proliferation, increment in cell apoptosis, and inhibition of wound healing. BMS-754807 with nab-paclitaxel produced substantially greater antitumor effects by increasing in vivo apoptosis, leading to increased mice survival compared to those of BMS-754807 or nab-paclitaxel monotherapy. Our outcomes support the use of BMS-754807, alone and in combination with nab-paclitaxel, as an efficient and innovative treatment choice for EAC. [ABSTRACT FROM AUTHOR]

Published

2024

19. BRAF Inhibition and UVB Light Synergistically Promote Mus musculus Papillomavirus 1-Induced Skin Tumorigenesis.

Author

Dorfer, Sonja, Ressler, Julia Maria, Riebenbauer, Katharina, Kancz, Stefanie, Purkhauser, Kim, Bachmayr, Victoria, Cataisson, Christophe, Kirnbauer, Reinhard, Petzelbauer, Peter, Wiesmueller, Markus, Egg, Maximilian, Hoeller, Christoph, and Handisurya, Alessandra

Subjects

*PAPILLOMAVIRUS diseases, *PROTEIN kinase inhibitors, *MITOGEN-activated protein kinases, *SKIN tumors, *T-test (Statistics), *ULTRAVIOLET radiation, *TRANSCRIPTION factors, *IN vivo studies, *CELLULAR signal transduction, *DESCRIPTIVE statistics, *ADJUVANT chemotherapy, *MICE, *KERATINOCYTES, *MESSENGER RNA, *IMMUNOHISTOCHEMISTRY, *SULFONAMIDES, *ANIMAL experimentation, *ONCOGENES, *WESTERN immunoblotting, *ONE-way analysis of variance, *GENETIC mutation, *COMPARATIVE studies, *GENOMES

Abstract

Simple Summary: Outgrowth of skin tumors in cancer patients who receive therapies with BRAF inhibitors is frequently observed as an undesired side effect. Infection with certain human papillomaviruses may play a role in BRAF-inhibitor-associated skin tumor development. In this study, the impact of BRAF inhibitors and Ultraviolet B (UVB) light on tumor growth was investigated in laboratory mice after infection of their skin with a murine papillomavirus. We could show that the combination of BRAF inhibitor treatment and UVB exposure resulted in higher numbers of virus-induced tumors compared with virus-infected mice that had received only BRAF inhibitors, only UVB irradiation or no additional treatment. This shows that BRAF inhibitors, particularly when combined with UVB light, support skin tumor growth in mice and may represent a novel way by which BRAF inhibitors contribute to skin cancer development. The development of keratinocytic skin tumors, presumably attributable to paradoxical activation of the MAPK pathway, represents a relevant side effect of targeted therapies with BRAF inhibitors (BRAFis). The role of cutaneous papillomavirus infection in BRAFi-associated skin carcinogenesis, however, is still inconclusive. Employing the Mus musculus papillomavirus 1 (MmuPV1) skin infection model, the impact of BRAFis and UVB exposure on papillomavirus induced skin tumorigenesis was investigated in immunocompetent FVB/NCrl mice. Systemic BRAF inhibition in combination with UVB light induced skin tumors in 62% of the MmuPV1-infected animals. In contrast, significantly fewer tumors were observed in the absence of either BRAF inhibition, UVB irradiation or virus infection, as demonstrated by lesional outgrowth in 20%, 5% and 0% of the mice, respectively. Combinatory exposure to BRAFis and UVB favored productive viral infection, which was shown by high numbers of MmuPV1 genome copies and E1^E4 spliced transcripts and an abundance of E6/E7 oncogene mRNA and viral capsid proteins. BRAF inhibition, but not viral infection or UVB light, activated ERK1/2, whereas γH2AX expression, inducible by UVB light, remained unaltered by BRAFis. These results provide experimental evidence that BRAF inhibition and UVB irradiation synergistically promote MmuPV1-induced skin tumor development in vivo. This indicates an alternative pathway by which papillomavirus skin infection may contribute to BRAFi-associated skin tumorigenesis. [ABSTRACT FROM AUTHOR]

Published

2024

20. Natural Antioxidants from Acmella oleracea Extract as Dermatocosmetic Actives.

Author

Maxim, Claudia, Blaga, Alexandra Cristina, Cimpoeșu, Ramona, Zinicovscaia, Inga, Peshkova, Alexandra, Danu, Maricel, Barna, Ana Simona, and Suteu, Daniela

Subjects

*PLANT extracts, *CYTOTOXINS, *OXIDATIVE stress, *PLACE marketing, *IN vivo studies

Abstract

Compounds from plant extracts make dermatocosmetic products more effective as they avoid the adaptation and resistance of the organism and achieve a synergistic effect of the molecular properties of interest. Acmella oleracea extract is considered to have great potential in preventing oxidative damage and improving the appearance of the skin. The purpose of this article is to support the product formulated by preliminary studies of two types of O/W emulsions with 3% and 5% concentrations of Acmella oleracea extract. Physico-chemical methods were performed to evaluate the stability, microbiological control, rheological behavior and diffusion through the membrane. Good homogeneity, structural strength and flexibility, adequate skin diffusion, and high physico-chemical and microbiological stability were confirmed. The conclusions lead to the idea that these results require further in vivo studies as well as studies of toxicity and cytotoxicity to obtain the necessary data to place this product on the market. [ABSTRACT FROM AUTHOR]

Published

2024

21. The Effects of Bipolar Cancellation Phenomenon on Nano-Electrochemotherapy of Melanoma Tumors: In Vitro and In Vivo Pilot.

Author

Mickevičiūtė, Eglė, Radzevičiūtė-Valčiukė, Eivina, Malyško-Ptašinskė, Veronika, Malakauskaitė, Paulina, Lekešytė, Barbora, Rembialkowska, Nina, Kulbacka, Julita, Tunikowska, Joanna, Novickij, Jurij, and Novickij, Vitalij

Subjects

*ELECTRIC fields, *LABORATORY mice, *CELL lines, *ELECTROPORATION, *IN vivo studies

Abstract

The phenomenon known as bipolar cancellation is observed when biphasic nanosecond electric field pulses are used, which results in reduced electroporation efficiency when compared to unipolar pulses of the same parameters. Basically, the negative phase of the bipolar pulse diminishes the effect of the positive phase. Our study aimed to investigate how bipolar cancellation affects Ca2+ electrochemotherapy and cellular response under varying electric field intensities and pulse durations (3–7 kV/cm, 100, 300, and 500 ns bipolar 1 MHz repetition frequency pulse bursts, n = 100). As a reference, standard microsecond range parametric protocols were used (100 µs × 8 pulses). We have shown that the cancellation effect is extremely strong when the pulses are closely spaced (1 MHz frequency), which results in a lack of cell membrane permeabilization and consequent failure of electrochemotherapy in vitro. To validate the observations, we have performed a pilot in vivo study where we compared the efficacy of monophasic (5 kV/cm × ↑500 ns × 100) and biphasic sequences (5 kV/cm × ↑500 ns + ↓500 ns × 100) delivered at 1 MHz frequency in the context of Ca2+ electrochemotherapy (B16-F10 cell line, C57BL/6 mice, n = 24). Mice treated with bipolar pulses did not exhibit prolonged survival when compared to the untreated control (tumor-bearing mice); therefore, the bipolar cancellation phenomenon was also occurrent in vivo, significantly impairing electrochemotherapy. At the same time, the efficacy of monophasic nanosecond pulses was comparable to 1.4 kV/cm × 100 µs × 8 pulses sequence, resulting in tumor reduction following the treatment and prolonged survival of the animals. [ABSTRACT FROM AUTHOR]

Published

2024

22. Targeting Asparagine Metabolism in Well-Differentiated/Dedifferentiated Liposarcoma.

Author

Klingbeil, Kyle D., Wilde, Blake R., Graham, Danielle S., Lofftus, Serena, McCaw, Tyler, Matulionis, Nedas, Dry, Sarah M., Crompton, Joseph G., Eilber, Fritz C., Graeber, Thomas G., Shackelford, David B., Christofk, Heather R., and Kadera, Brian E.

Subjects

*ASPARAGINE, *BIOLOGICAL models, *CANCER invasiveness, *RESEARCH funding, *RARE diseases, *CELL proliferation, *CELLULAR signal transduction, *XENOGRAFTS, *IN vivo studies, *LIPOSARCOMA, *CELL lines, *GENE expression, *AMINO acids, *MTOR inhibitors, *ANIMAL experimentation, *METABOLOMICS

Abstract

Simple Summary: Liposarcoma is a rare cancer of adipose tissue with limited treatment options. Here, we studied the fuel used by liposarcoma to develop a new strategy for treatment. Liposarcoma was found to rely on the amino acid Asparagine for tumor growth, especially in its most aggressive form. By combining treatments that limit both synthesis and uptake of Asparagine within liposarcoma cells, we demonstrated a unique sensitivity that reduced tumor growth in animal models. Altogether, findings from this study suggest that targeting Asparagine could be a promising new therapy in liposarcoma. Background: mTORC1 activity is dependent on the presence of micronutrients, including Asparagine (Asn), to promote anabolic cell signaling in many cancers. We hypothesized that targeting Asn metabolism would inhibit tumor growth by reducing mTORC1 activity in well-differentiated (WD)/dedifferentiated (DD) liposarcoma (LPS). Methods: Human tumor metabolomic analysis was utilized to compare abundance of Asn in WD vs. DD LPS. Gene set enrichment analysis (GSEA) compared relative expression among metabolic pathways upregulated in DD vs. WD LPS. Proliferation assays were performed for LPS cell lines and organoid models by using the combination treatment of electron transport chain (ETC) inhibitors with Asn-free media. 13C-Glucose-labeling metabolomics evaluated the effects of combination treatment on nucleotide synthesis. Murine xenograft models were used to assess the effects of ETC inhibition combined with PEGylated L-Asparaginase (PEG-Asnase) on tumor growth and mTORC1 signaling. Results: Asn was enriched in DD LPS compared to WD LPS. GSEA indicated that mTORC1 signaling was upregulated in DD LPS. Within available LPS cell lines and organoid models, the combination of ETC inhibition with Asn-free media resulted in reduced cell proliferation. Combination treatment inhibited nucleotide synthesis and promoted cell cycle arrest. In vivo, the combination of ETC inhibition with PEG-Asnase restricted tumor growth. Conclusions: Asn enrichment and mTORC1 upregulation are important factors contributing to WD/DD LPS tumor progression. Effective targeting strategies require limiting access to extracellular Asn and inhibition of de novo synthesis mechanisms. The combination of PEG-Asnase with ETC inhibition is an effective therapy to restrict tumor growth in WD/DD LPS. [ABSTRACT FROM AUTHOR]

Published

2024

23. Curcumin-Dichloroacetate Hybrid Molecule as an Antitumor Oral Drug against Multidrug-Resistant Advanced Bladder Cancers.

Author

Gupta, Kunj Bihari, Taylor, Truett L., Panda, Siva S., Thangaraju, Muthusamy, and Lokeshwar, Bal. L.

Subjects

*BIOLOGICAL models, *DRUG resistance in cancer cells, *ACETIC acid, *MITOCHONDRIA, *RESEARCH funding, *ANTINEOPLASTIC agents, *APOPTOSIS, *MULTIDRUG resistance, *ORAL drug administration, *TREATMENT effectiveness, *IN vivo studies, *XENOGRAFTS, *IMMUNODIAGNOSIS, *DESCRIPTIVE statistics, *OXIDATIVE stress, *MICE, *REACTIVE oxygen species, *ACETYLCYSTEINE, *CURCUMIN, *ANIMAL experimentation, *MOLECULAR structure, *HYDROXIDES, *COMPARATIVE studies, *CELL surface antigens, *PHARMACODYNAMICS, BLADDER tumors

Abstract

Simple Summary: Advanced urinary bladder cancer (BCa) is characterized by rapid progression and development of therapy resistance. Despite all the available therapies, the five-year survival of metastatic BCa is a dismal 8% or lower. Many conjugates and additives of the natural polyphenol curcumin were developed and tested for potential therapeutic for cancers, with little success in vivo due to their rapid elimination and poor tissue penetrance. We tested a novel molecular hybrid CMC-2 composed of a curcumin scaffold conjugated to two dichloroacetate and glycine molecules. CMC-2 showed significantly higher antiproliferative and anti-survival activities against BCa than its parent compounds. Further, it was equally effective against chemotherapy-naïve and multidrug-resistant BCas (MDR-BCa). When tested in vivo using BCa xenograft in athymic mice, CMC-2 significantly delayed tumor growth without systemic toxicity. The mechanism of anticancer activity of CMC-2 was the induction of excessive oxidative stress in the cancer cells, leading to apoptotic cell death. These results show the potential of CMC-2 as a nontoxic oral treatment for high-grade bladder cancers. Tumor cells produce excessive reactive oxygen species (ROS) but cannot detoxify ROS if they are due to an external agent. An agent that produces toxic levels of ROS, specifically in tumor cells, could be an effective anticancer drug. CMC-2 is a molecular hybrid of the bioactive polyphenol curcumin conjugated to dichloroacetate (DCA) via a glycine bridge. The CMC-2 was tested for its cytotoxic antitumor activities and killed both naïve and multidrug-resistant (MDR) bladder cancer (BCa) cells with equal potency (<1.0 µM); CMC-2 was about 10–15 folds more potent than curcumin or DCA. Growth of human BCa xenograft in mice was reduced by >50% by oral gavage of 50 mg/kg of CMC-2 without recognizable systemic toxicity. Doses that used curcumin or DCA showed minimum antitumor effects. In vitro, the toxicity of CMC-2 in both naïve and MDR cells depended on increased intracellular ROS in tumor cells but not in normal cells at comparable doses. Increased ROS caused the permeabilization of mitochondria and induced apoptosis. Further, adding N-Acetyl cysteine (NAC), a hydroxyl radical scavenger, abolished excessive ROS production and CMC-2's cytotoxicity. The lack of systemic toxicity, equal potency against chemotherapy -naïve and resistant tumors, and oral bioavailability establish the potential of CMC-2 as a potent drug against bladder cancers. [ABSTRACT FROM AUTHOR]

Published

2024

24. Immune Cell Molecular Pharmacodynamics of Lanreotide in Relation to Treatment Response in Patients with Gastroenteropancreatic Neuroendocrine Tumors.

Author

Alaklabi, Sabah, Maguire, Orla, Pattnaik, Harsha, Zhang, Yali, Chow, Jacky, Wang, Jianmin, Minderman, Hans, and Iyer, Renuka

Subjects

*THERAPEUTIC use of antineoplastic agents, *GASTROINTESTINAL tumors, *IN vitro studies, *NF-kappa B, *CHEMOKINES, *PROTEINS, *HORMONES, *T cells, *RESEARCH funding, *CELL physiology, *CELL proliferation, *APOPTOSIS, *IMMUNE system, *CANCER patients, *TREATMENT effectiveness, *IN vivo studies, *TRANSCRIPTION factors, *CELLULAR signal transduction, *DESCRIPTIVE statistics, *PANCREATIC tumors, *ENERGY metabolism, *NEUROENDOCRINE tumors, *SOMATOSTATIN, *GENE expression profiling, *PROTEOLYTIC enzymes, *CYTOKINES, *DATA analysis software

Abstract

Simple Summary: Somatostatin analogs like lanreotide are considered first-line agents for the treatment of gastroenteropancreatic neuroendocrine tumors (NET). Although its effects on tumor proliferation and hormonal regulation are somewhat understood, its influence on the immune system has not been well elucidated. We used a double-pronged approach to understand the role of lanreotide in immune system regulation in healthy donor T cells in vitro as well as in vivo in cells obtained from 17 NET patients. We looked at cytokine signaling and differential gene expression to elucidate lanreotide's role in the treatment of NET through additional novel immune pathways. The CLARINET trial led to the approval of lanreotide for the treatment of patients with gastroenteropancreatic neuroendocrine tumors (NETs). It is hypothesized that lanreotide regulates proliferation, hormone synthesis, and other cellular functions via binding to somatostatin receptors (SSTR1–5) present in NETs. However, our knowledge of how lanreotide affects the immune system is limited. In vitro studies have investigated functional immune response parameters with lanreotide treatment in healthy donor T cell subsets, encompassing the breadth of SSTR expression, apoptosis induction, cytokine production, and activity of transcription factor signaling pathways. In our study, we characterized in vitro immune mechanisms in healthy donor T cells in response to lanreotide. We also studied the in vivo effects by looking at differential gene expression pre- and post-lanreotide therapy in patients with NET. Immune-focused gene and protein expression profiling was performed on peripheral blood samples from 17 NET patients and correlated with clinical response. In vivo, lanreotide therapy showed reduced effects on wnt, T cell receptor (TCR), and nuclear factor kappa-light-chain-enhancer of activated B cells (NF-kB) signaling in CD8+ T cells in responders compared to non-responders. Compared to non-responders, responders showed reduced effects on cytokine and chemokine signaling but greater effects on ubiquitination and proteasome degradation genes. Our results suggest significant lanreotide pharmacodynamic effects on immune function in vivo, which correlate with responses in NET patients. This is not evident from experimental in vitro settings. [ABSTRACT FROM AUTHOR]

Published

2024

25. Antimicrobial Effects of Metal Coatings or Physical, Chemical Modifications of Titanium Dental Implant Surfaces for Prevention of Peri-Implantitis: A Systematic Review of In Vivo Studies.

Author

Gkioka, Maria and Rausch-Fan, Xiaohui

Subjects

METAL coating, DENTAL implants, COPPER, BACTERIAL colonies, SCIENCE databases

Abstract

Introduction: Peri-implantitis poses a significant challenge for implant dentistry due to its association with bacterial colonization on implant surfaces and the complexity of its management. This systematic review aims to assess evidence from in vivo studies regarding the antimicrobial efficacy of titanium (Ti) dental implant surfaces following physical/chemical modifications or the application of various metal element coatings in preventing bacterial growth associated with peri-implantitis. Materials and Methods: A literature review was conducted across four scientific databases (PubMed, Embase, Scopus, Web of Science), encompassing in vivo studies published between 2013 and 2024, and 18 reports were included in the systematic review. Results: The findings suggest that titanium dental implant surfaces, following physical/chemical modifications and metal element coatings, exhibit antimicrobial effects against bacteria associated with peri-implantitis in humans and various animal models. Conclusions: The reviewed studies indicated a reduction in bacterial colonization, diminished biofilm formation, and decreased signs of inflammation in the peri-implant tissues, which provides evidence that physical/chemical alterations on titanium dental implant surfaces or metal element coatings, like silver (Ag), zinc (Zn), magnesium (Mg), and copper (Cu), demonstrate antimicrobial properties in in vivo studies. However, caution is warranted when translating findings to clinical practice due to methodological disparities and high bias risks. Further larger-scale clinical trials are imperative to assess their long-term efficacy and validate their clinical applicability. [ABSTRACT FROM AUTHOR]

Published

2024

26. Anti-Inflammatory and Anticancer Effects of Anthocyanins in In Vitro and In Vivo Studies.

Author

Kowalczyk, Tomasz, Muskała, Martyna, Merecz-Sadowska, Anna, Sikora, Joanna, Picot, Laurent, and Sitarek, Przemysław

Subjects

FLAVONOIDS, EVIDENCE gaps, MEDICAL personnel, NEURODEGENERATION, CHEMICAL structure, ANTHOCYANINS

Abstract

Anthocyanins, a class of flavonoid compounds responsible for the vibrant colors of many fruits and vegetables, have received considerable attention in recent years due to their potential health benefits. This review, focusing on evidence from both in vitro and in vivo studies, provides a comprehensive overview of the current state of knowledge regarding the health-promoting properties of anthocyanins. The chemical structure and diversity of anthocyanins, their bioavailability, and their mechanisms of action at the cellular and molecular level are examined. Research on the antioxidant, anti-inflammatory, anticancer, and neuroprotective effects of anthocyanins is critically reviewed. Special emphasis is placed on the role of anthocyanins in the prevention and treatment of chronic diseases such as cardiovascular diseases, diabetes, and neurodegenerative diseases. This review also discusses the challenges of translating in vitro findings to in vivo and highlights the importance of considering dose, bioavailability, and metabolism when assessing the therapeutic potential of anthocyanins. This review concludes with the identification of gaps in current research and suggestions for future directions for anthocyanin studies, including the need for more long-term clinical trials and investigations into potential synergistic effects with other phytochemicals. This comprehensive analysis highlights the promising role of anthocyanins in promoting human health and provides valuable insights for researchers, health professionals, and the nutraceutical industry. This study provides new insights, as it comprehensively investigates the dual anti-inflammatory and anticancer effects of anthocyanins in both in vitro and in vivo models. By uncovering the biological properties of anthocyanins from a variety of natural sources, this research not only expands our knowledge of the action of these compounds at the cellular level, but also enhances their clinical relevance through in vivo validation. Furthermore, the innovative use of anthocyanins may lead to important advances in their therapeutic application in the future. [ABSTRACT FROM AUTHOR]

Published

2024

27. Novel Flowable Hemostatic Agent ActiClot: Efficacy and Safety Assessment in Rat and Porcine Models.

Author

Kim, Hee-Jung, Lee, Su-Kyoung, Ko, Yun-Jeh, Jeon, Soo-Hyeon, Kim, Eun-Jin, Kwon, Oh-Hyeong, and Cho, Yang-Hyun

Subjects

*LABORATORY rats, *SURGICAL emergencies, *CALCIUM chloride, *IN vivo studies, *HEMOSTASIS

Abstract

Background/Objectives: This study evaluated the hemostatic performance and safety of ActiClot (ATC), a new flowable hemostatic agent, through in vivo tests. Methods: ATC was compared with the commercially available FLOSEAL®. ATC consists of carboxymethyl starch, thrombin, and sorbitol powders in Syringe I, and a calcium chloride solution in Syringe II. In vivo evaluation used rat liver bleeding and porcine heart bleeding models. Safety was assessed using a rat subcutaneous implantation model. Results: ATC significantly reduced hemostasis time (70.00 ± 7.35 s) compared to gauze control (240.63 ± 32.31 s) in the rat liver model, showing a 70% reduction. There was no significant difference between ATC and FLOSEAL® (58.75 ± 13.42 s). In the porcine heart model, both agents achieved 100% hemostasis within 3 min, with no significant difference in success rates within 2 min (ATC 87.5%, FLOSEAL® 75%). The gauze control group failed in all tests. The rat subcutaneous implantation model showed no visual ATC observation after 48 h, indicating biocompatibility, with no inflammation observed. Conclusions: ATC demonstrated effective hemostatic performance similar to FLOSEAL® in two in vivo models, with faster hemostasis in the rat liver model. It also showed excellent safety and biocompatibility, indicating its potential for surgical and emergency bleeding control. [ABSTRACT FROM AUTHOR]

Published

2024

28. Development of Ex Vivo Analysis for Examining Cell Composition, Immunological Landscape, Tumor and Immune Related Markers in Non-Small-Cell Lung Cancer.

Author

Ufimtseva, Elena G., Gileva, Margarita S., Kostenko, Ruslan V., Kozlov, Vadim V., and Gulyaeva, Lyudmila F.

Subjects

*FLUOROIMMUNOASSAY, *ADENOCARCINOMA, *SQUAMOUS cell carcinoma, *IMMUNOCHEMISTRY, *MACROPHAGES, *RESEARCH funding, *CELL physiology, *NEUTROPHILS, *SMOKING, *TUMOR markers, *IN vivo studies, *CANCER cell culture, *GENE expression, *LUNG tumors, *GENE expression profiling, *HISTOLOGICAL techniques, *LUNG cancer, *STAINS & staining (Microscopy), *CYTOKINES, *EOSINOPHILS

Abstract

Simple Summary: Lung cancer, including non-small-cell lung cancer (NSCLC), is one of the leading causes of cancer-related deaths worldwide. NSCLC treatment has undergone a major paradigm shift with the advent of targeted therapy and immunotherapy, which require the specific tumor and immune signatures of NSCLC to be tested to ensure careful patient selection and prediction of clinical benefits from the selected therapy. Tumor samples with large fibrotic areas and the focal nature of biomarker expression may be a source of bias in histological assays. The ex vivo analysis developed in this work allows us to rapidly explore various characteristics of cancer and tumor-infiltrating immune cells after their separation from fibrotic tissue in solid NSCLC samples and to have a better understanding of the immunological landscape and expression of different cell markers in the tumor as a whole, thereby avoiding some false negatives in the histological assay of the same tumor samples. NSCLC is a very aggressive solid tumor, with a poor prognosis due to post-surgical recurrence. Analysis of the specific tumor and immune signatures of NSCLC samples is a critical step in prognostic evaluation and management decisions for patients after surgery. Routine histological assays have some limitations. Therefore, new diagnostic tools with the capability to quickly recognize NSCLC subtypes and correctly identify various markers are needed. We developed a technique for ex vivo isolation of cancer and immune cells from surgical tumor and lung tissue samples of patients with NSCLC (adenocarcinomas and squamous cell carcinomas) and their examination on ex vivo cell preparations and, parallelly, on histological sections after Romanovsky–Giemsa and immunofluorescent/immunochemical staining for cancer-specific and immune-related markers. As a result, PD-L1 expression was detected for some patients only by ex vivo analysis. Immune cell profiling in the tumor microenvironment revealed significant differences in the immunological landscapes between the patients' tumors, with smokers' macrophages with simultaneous expression of pro- and anti-inflammatory cytokines, neutrophils, and eosinophils being the dominant populations. The proposed ex vivo analysis may be used as an additional diagnostic tool for quick examination of cancer and immune cells in whole tumor samples and to avoid false negatives in histological assays. [ABSTRACT FROM AUTHOR]

Published

2024

29. Evaluation of Combined Chemotherapy and Genomic-Driven Targeted Therapy in Patient-Derived Xenografts Identifies New Therapeutic Approaches in Squamous Non-Small-Cell Lung Cancer Patients.

Author

Decaudin, Didier, Némati, Fariba, Masliah Planchon, Julien, Seguin-Givelet, Agathe, Lefevre, Marine, Etienne, Vesnie, Ahnine, Harry, Peretti, Quentin, Sourd, Laura, El-Botty, Rania, Huguet, Lea, Lagha, Sarah, Hegarat, Nadia, Roman-Roman, Sergio, Bièche, Ivan, Girard, Nicolas, and Montaudon, Elodie

Subjects

*THERAPEUTIC use of antineoplastic agents, *CELL metabolism, *ADENOCARCINOMA, *SQUAMOUS cell carcinoma, *GENOMICS, *ENZYME inhibitors, *CANCER patients, *XENOGRAFTS, *CELLULAR signal transduction, *IN vivo studies, *CANCER chemotherapy, *MICE, *DRUG efficacy, *ANIMAL experimentation, *GENETIC mutation, *LUNG cancer, *SEQUENCE analysis

Abstract

Simple Summary: Non-small-cell lung cancer is characterized by high morbidity and mortality. Currently, the precision medicine approach in the adenocarcinoma subtype of non-small-cell lung cancer aims to identify genomic alterations that can be targeted in individual patients and offer them appropriate treatment. Several biomarker-guided therapies have been approved, targeting genes frequently altered in adenocarcinoma, such as EGFR, BRAF, MET, ALK, ROS1, RET and NTRK. To overcome the emergence of resistance and increase the efficacy of these targeted therapies, the combination of chemotherapy and targeted therapy has been studied and validated in adenocarcinoma patients with EGFR mutations. This study proposes to examine whether this type of combined approach, which is difficult to study in clinical trials, could be more widely used by targeting other genetic alterations in the MAPK/PI3K pathways or against alterations in the CDNK2A gene in adenocarcinomas but also in squamous-cell carcinomas. The combination of chemotherapy and targeted therapy has been validated in non-small-cell lung cancer (NSCLC) patients with EGFR mutations. We therefore investigated whether this type of combined approach could be more widely used by targeting other genetic alterations present in NSCLC. PDXs were generated from patients with NSCLC adenocarcinomas (ADCs) and squamous-cell carcinomas (SCCs). Targeted NGS analyses identified various molecular abnormalities in the MAPK and PI3K pathways and in the cell cycle process in our PDX panel. The antitumor efficacy of targeted therapies alone or in combination with chemotherapy was then tested in vivo. We observed that trametinib, BKM120, AZD2014 and palbociclib increased the efficacy of each chemotherapy in SCC PDXs, in contrast to a non-insignificant or slight improvement in ADCs. Furthermore, we observed high efficacy of trametinib in KRAS-, HRAS- and NRAS-mutated tumors (ADCs and SCCs), suggesting that the MEK inhibitor may be useful in a wider population of NSCLC patients, not just those with KRAS-mutated ADCs. Our results suggest that the detection of pathogenic variants by NGS should be performed in all NSCLCs, and particularly in SCCs, to offer patients a more effective combination of chemotherapy and targeted therapy. [ABSTRACT FROM AUTHOR]

Published

2024

30. Liver X Receptors Enhance Epithelial to Mesenchymal Transition in Metastatic Prostate Cancer Cells.

Author

Bouchareb, Erwan, Dallel, Sarah, De Haze, Angélique, Damon-Soubeyrand, Christelle, Renaud, Yoan, Baabdaty, Elissa, Vialat, Marine, Fabre, Julien, Pouchin, Pierre, De Joussineau, Cyrille, Degoul, Françoise, Sanmukh, Swapnil, Gendronneau, Juliette, Sanchez, Phelipe, Gonthier-Gueret, Céline, Trousson, Amalia, Morel, Laurent, Lobaccaro, Jean Marc, Kocer, Ayhan, and Baron, Silvère

Subjects

*EPITHELIAL cells, *LIVER tumors, *RESEARCH funding, *MESENCHYMAL stem cells, *PROSTATE tumors, *CAUSES of death, *IN vivo studies, *XENOGRAFTS, *MANN Whitney U Test, *DESCRIPTIVE statistics, *METASTASIS, *MICE, *CELL lines, *IMMUNOHISTOCHEMISTRY, *GENE expression, *ANIMAL experimentation, *WESTERN immunoblotting, *DATA analysis software, *CELL receptors

Abstract

Simple Summary: As many cancers, prostate cancer is lethal when reaching the metastatic state. Starting from prostate to invade secondary sites, tumour cells undergo structural modifications called epithelial-mesenchymal transition. Molecular mechanisms controlling this phenomenon were studied in vitro and in vivo after modification of LXRs transcription factors activity, which regulate cholesterol metabolism. These studies showed that in a metastatic cell line derived from bone, increased activity of LXR stimulated the EMT processes in vitro and in vivo. We then characterized the associated deregulated genes and identified Amphiregulin as a new target regulated by LXR. The relationship between amphiregulin and EMT was here first reported in prostate cancer and as this protein can be secreted, will be further considered as a possible blood maker for monitoring metastatic occurrence. Prostate cancer (PCa) is one of the most common cancers in men. Metastasis is the leading cause of death in prostate cancer patients. One of the crucial processes involved in metastatic spread is the "epithelial–mesenchymal transition" (EMT), which allows cells to acquire the ability to invade distant organs. Liver X Receptors (LXRs) are nuclear receptors that have been demonstrated to regulate EMT in various cancers, including hepatic cancer. Our study reveals that the LXR pathway can control pro-invasive cell capacities through EMT in prostate cancer, employing ex vivo and in vivo approaches. We characterized the EMT status of the commonly used LNCaP, DU145, and PC3 prostate cancer cell lines through molecular and immunohistochemistry experiments. The impact of LXR activation on EMT function was also assessed by analyzing the migration and invasion of these cell lines in the absence or presence of an LXR agonist. Using in vivo experiments involving NSG-immunodeficient mice xenografted with PC3-GFP cells, we were able to study metastatic spread and the effect of LXRs on this process. LXR activation led to an increase in the accumulation of Vimentin and Amphiregulin in PC3. Furthermore, the migration of PC3 cells significantly increased in the presence of the LXR agonist, correlating with an upregulation of EMT. Interestingly, LXR activation significantly increased metastatic spread in an NSG mouse model. Overall, this work identifies a promoting effect of LXRs on EMT in the PC3 model of advanced prostate cancer. [ABSTRACT FROM AUTHOR]

Published

2024

31. Accuracy of Implant Placement Using Digital Prosthetically-Derived Surgical Guides: A Systematic Review.

Author

Abad-Coronel, Cristian, Vandeweghe, Stefan, Vela Cervantes, María Dolores, Tobar Lara, María José, Mena Córdova, Nancy, and Aliaga, Paulina

Subjects

DENTAL implants, PROSTHETICS, IN vivo studies, SURGERY

Abstract

Dental implant placement is crucial in oral rehabilitation, requiring precision for successful outcomes. Digital technologies, including surgical guides, enhance predictability and efficiency in implant procedures. However, their impact on implant positioning accuracy is still under investigation. This systematic review aimed to evaluate the literature on implant accuracy using digital prosthetically-derived surgical guides. Registered in PROSPERO (CRD 42023483194), the review employed a PICO strategy and searched PubMed for English-language, in vivo studies from 2013 to 2023 on restrictive digital prosthetically-derived surgical guides. Two reviewers independently assessed records, with a third verifying the decisions. PRISMA guidelines were followed, yielding 24 results after excluding nine duplicates. Ten studies met the criteria after title, abstract, and keyword review, with three included after verification. These studies showed coronal deviations of 0.44 mm to 0.56 mm, apical deviations of 0.64 mm to 1.03 mm, angular deviations of 2.03° to 2.42°, and vertical deviations of 0.19 mm to 0.45 mm. Superior accuracy was noted with static guided techniques, while bilateral guides offered stability and printed guides were cost-effective. A surgical guide that comes from a planning with a primary wax-up of the prosthesis leads to the placement of a dental implant that can be functionally and esthetically rehabilitated. Further research is needed to standardize outcomes and improve implant protocols and patient outcomes. [ABSTRACT FROM AUTHOR]

Published

2024

32. Nanocrystal Formulation to Enhance Oral Absorption of Silybin: Preparation, In Vitro Evaluations, and Pharmacokinetic Evaluations in Rats and Healthy Human Subjects.

Author

Seo, SeungRee, Kim, Gwan-Young, Kim, Min-Hwan, Lee, Kyung Won, Kim, Min-Jae, Chaudhary, Mansingh, Bikram, Khadka, Kim, Taeheon, Choi, Seungmok, Yang, Heejin, Park, Joo Won, Kim, Dae-Duk, and Kim, Ki-Taek

Subjects

*MILK thistle, *SURFACE morphology, *IN vivo studies, *BIOAVAILABILITY, *RAW materials

Abstract

Despite the various therapeutic benefits and high tolerance of orally administered silybin, poor water-solubility can be the main restrictive physicochemical feature, which results in low oral bioavailability in the absorption. A milk thistle nanocrystal formulation (HM40) was prepared using a modified wet-milling method. Comprehensive characterization was performed to determine the physical morphology, crystallinity, and physicochemical properties. The long-term stability was evaluated over 24 months. In vitro silybin release was assessed at pH 1.2 for 2 h, followed by pH 6.8 for 4 h. Finally, in vivo pharmacokinetic studies were conducted in rats and healthy human volunteers. HM40 exhibited a nanocrystal structure maintaining crystallinity and enhanced the solubility and dissolution of silybin compared to that of the raw material. The stability over 24 months revealed consistent surface morphology, particle size, silybin content, and solubility. In vitro release profiles indicated a significant increase in the silybin release from HM40. In vivo pharmacokinetic studies demonstrated that HM40 showed 2.61- and 1.51-fold higher oral bioavailability in rats and humans, respectively, than that of the reference capsule. HM40 formulation presents a stable and promising approach for the oral delivery of poorly water-soluble silybin, with the potential for use in pharmaceutical formulations containing milk thistle. [ABSTRACT FROM AUTHOR]

Published

2024

33. Insulin Resistance in Women Correlates with Chromatin Histone Lysine Acetylation, Inflammatory Signaling, and Accelerated Aging.

Author

Vidal, Christina M., Alva-Ornelas, Jackelyn A., Chen, Nancy Zhuo, Senapati, Parijat, Tomsic, Jerneja, Robles, Vanessa Myriam, Resto, Cristal, Sanchez, Nancy, Sanchez, Angelica, Hyslop, Terry, Emwas, Nour, Aljaber, Dana, Bachelder, Nick, Martinez, Ernest, Ann, David, Jones, Veronica, Winn, Robert A., Miele, Lucio, Ochoa, Augusto C., and Dietze, Eric C.

Subjects

*TUMOR risk factors, *KIDNEY disease risk factors, *DNA analysis, *HEART disease risk factors, *IN vitro studies, *RISK assessment, *PREDIABETIC state, *FLOW cytometry, *INFLAMMATORY mediators, *RESEARCH funding, *PSYCHOLOGY of women, *CELLULAR signal transduction, *IN vivo studies, *DESCRIPTIVE statistics, *INSULIN resistance, *HISTONES, *GENES, *CHROMOSOMES, *TYPE 2 diabetes, *NATURAL immunity, *GENETIC mutation, *GENETICS, *ACTIVE aging, *INTERLEUKINS, *SEQUENCE analysis

Abstract

Simple Summary: There is increasing evidence that Type-2 diabetes and pre-diabetes may increase cancer risk; however, the biology that links these diseases is poorly understood. Epigenetics is the biological study of how DNA can be modified without mutations; epigenetic changes link medical, social, and environmental changes with cancer. Here, we investigated whether insulin resistance (pre-diabetes) may result in epigenetic changes that increase cancer risk. We discovered that women with insulin resistance have epigenetic changes that increase inflammation and perhaps accelerated aging. Our study is important because the inflammatory changes we see are associated with an increased risk for heart disease, kidney disease, and cancer. Background: Epigenetic changes link medical, social, and environmental factors with cardiovascular and kidney disease and, more recently, with cancer. The mechanistic link between metabolic health and epigenetic changes is only starting to be investigated. In our in vitro and in vivo studies, we performed a broad analysis of the link between hyperinsulinemia and chromatin acetylation; our top "hit" was chromatin opening at H3K9ac. Methods: Building on our published preclinical studies, here, we performed a detailed analysis of the link between insulin resistance, chromatin acetylation, and inflammation using an initial test set of 28 women and validation sets of 245, 22, and 53 women. Results: ChIP-seq identified chromatin acetylation and opening at the genes coding for TNFα and IL6 in insulin-resistant women. Pathway analysis identified inflammatory response genes, NFκB/TNFα-signaling, reactome cytokine signaling, innate immunity, and senescence. Consistent with this finding, flow cytometry identified increased senescent circulating peripheral T-cells. DNA methylation analysis identified evidence of accelerated aging in insulin-resistant vs. metabolically healthy women. Conclusions: This study shows that insulin-resistant women have increased chromatin acetylation/opening, inflammation, and, perhaps, accelerated aging. Given the role that inflammation plays in cancer initiation and progression, these studies provide a potential mechanistic link between insulin resistance and cancer. [ABSTRACT FROM AUTHOR]

Published

2024

34. Imaging Biomarkers of Oral Dysplasia and Carcinoma Measured with In Vivo Endoscopic Optical Coherence Tomography.

Author

Malone, Jeanie, Hill, Chloe, Tanskanen, Adrian, Liu, Kelly, Ng, Samson, MacAulay, Calum, Poh, Catherine F., and Lane, Pierre M.

Subjects

*ORAL disease diagnosis, *BIOPSY, *MOUTH tumors, *RESEARCH funding, *OPTICAL coherence tomography, *EARLY detection of cancer, *TUMOR markers, *ENDOSCOPIC surgery, *IN vivo studies, *TREATMENT effectiveness, *QUANTITATIVE research, *RETROSPECTIVE studies, *ORAL diseases, *SURGICAL margin, *ENDOSCOPY, *SURGICAL site

Abstract

Simple Summary: Oral cancers are associated with high mortality in advanced stages. Early diagnosis is associated with better patient outcomes, but this is challenging to achieve as benign lesions look similar to lesions of concern, and multiple biopsies may be required to ensure the most pathologic tissue is sampled. This work leverages a previously developed endoscopic imaging system and deep learning segmentation tool to provide measurements of subsurface changes in the first few millimeters of oral tissue. We present seven quantitative features that allow for rapid examination of tissue, which we propose may be useful for biopsy site or treatment margin selection. Optical coherence tomography is a noninvasive imaging technique that provides three-dimensional visualization of subsurface tissue structures. OCT has been proposed and explored in the literature as a tool to assess oral cancer status, select biopsy sites, or identify surgical margins. Our endoscopic OCT device can generate widefield (centimeters long) imaging of lesions at any location in the oral cavity—but it is challenging for raters to quantitatively assess and score large volumes of data. Leveraging a previously developed epithelial segmentation network, this work develops quantifiable biomarkers that provide direct measurements of tissue properties in three dimensions. We hypothesize that features related to morphology, tissue attenuation, and contrast between tissue layers will be able to provide a quantitative assessment of disease status (dysplasia through carcinoma). This work retrospectively assesses seven biomarkers on a lesion-contralateral matched OCT dataset of the lateral and ventral tongue (40 patients, 70 sites). Epithelial depth and loss of epithelial–stromal boundary visualization provide the strongest discrimination between disease states. The stroma optical attenuation coefficient provides a distinction between benign lesions from dysplasia and carcinoma. The stratification biomarkers visualize subsurface changes, which provides potential for future utility in biopsy site selection or treatment margin delineation. [ABSTRACT FROM AUTHOR]

Published

2024

35. Arid1a Loss Enhances Disease Progression in a Murine Model of Osteosarcoma.

Author

Fatema, Kaniz, Wang, Yanliang, Pavek, Adriene, Larson, Zachary, Nartker, Christopher, Plyler, Shawn, Jeppesen, Amanda, Mehling, Breanna, Capecchi, Mario R., Jones, Kevin B., and Barrott, Jared J.

Subjects

*OSTEOSARCOMA, *BIOLOGICAL models, *IN vitro studies, *CANCER invasiveness, *OSTEOBLASTS, *CELL proliferation, *IN vivo studies, *CELL lines, *METASTASIS, *MICE, *PATIENT-centered care, *ANIMAL experimentation, *GENETIC mutation, *DISEASE progression, *DNA-binding proteins, *GENETIC testing, *PHENOTYPES

Abstract

Simple Summary: Osteosarcoma is an aggressive form of bone cancer that spreads quickly and is challenging to treat. Genetic screening in this study discovered that the loss of the Arid1a gene is a crucial factor in the development and progression of osteosarcoma. In vitro and in vivo studies validated that the loss of Arid1a increased proliferation and chemoresistance in human cell lines and led to higher disease penetrance, metastases, and shorter survival in mice. Unbiased pathway analyses suggest that Arid1a may contribute to the aggressiveness of osteosarcoma by dysregulating genomic instability. Osteosarcoma is an aggressive bone malignancy, molecularly characterized by acquired genome complexity and frequent loss of TP53 and RB1. Obtaining a molecular understanding of the initiating mutations of osteosarcomagenesis has been challenged by the difficulty of parsing between passenger and driver mutations in genes. Here, a forward genetic screen in a genetic mouse model of osteosarcomagenesis initiated by Trp53 and Rb1 conditional loss in pre-osteoblasts identified that Arid1a loss contributes to OS progression. Arid1a is a member of the canonical BAF (SWI/SNF) complex and a known tumor suppressor gene in other cancers. We hypothesized that the loss of Arid1a increases the rate of tumor progression and metastasis. Phenotypic evaluation upon in vitro and in vivo deletion of Arid1a validated this hypothesis. Gene expression and pathway analysis revealed a correlation between Arid1a loss and genomic instability, and the subsequent dysregulation of genes involved in DNA DSB or SSB repair pathways. The most significant of these transcriptional changes was a concomitant decrease in DCLRE1C. Our findings suggest that Arid1a plays a role in genomic instability in aggressive osteosarcoma and a better understanding of this correlation can help with clinical prognoses and personalized patient care. [ABSTRACT FROM AUTHOR]

Published

2024

36. Synergistic Efficacy of CDK4/6 Inhibitor Abemaciclib and HDAC Inhibitor Panobinostat in Pancreatic Cancer Cells.

Author

Bhutkar, Shraddha, Yadav, Anjali, Patel, Himaxi, Barot, Shrikant, Patel, Ketan, and Dukhande, Vikas V.

Subjects

*THERAPEUTIC use of antineoplastic agents, *IN vitro studies, *FLOW cytometry, *DRUG resistance in cancer cells, *PATIENT safety, *RESEARCH funding, *ENZYME inhibitors, *CELL cycle, *IN vivo studies, *PANCREATIC tumors, *INDOLE compounds, *FIBROBLASTS, *CELL lines, *DRUG efficacy, *CELL death, *WESTERN immunoblotting, *DRUG synergism, *CYCLIN-dependent kinases, *OVERALL survival

Abstract

Simple Summary: Pancreatic ductal adenocarcinoma has a low 5-year survival rate due to delayed diagnosis, rapid growth, tumor complexity, and difficulties in surgical resection. Treatments involving new targeted chemotherapeutic options are required due to challenges such as drug resistance, low efficacy, severe toxicity, high metastatic potential, and clinical trial failures. This study demonstrates the preclinical efficacy and potential of the novel combination of abemaciclib and panobinostat in multiple pancreatic cancer cell lines. Our results depict that a novel combination of these agents aids in synergistic effects, causing cell death in pancreatic cancer cells. The current 5-year survival rate of pancreatic cancer is about 12%, making it one of the deadliest malignancies. The rapid metastasis, acquired drug resistance, and poor patient prognosis necessitate better therapeutic strategies for pancreatic ductal adenocarcinoma (PDAC). Multiple studies show that combining chemotherapeutics for solid tumors has been successful. Targeting two distinct emerging hallmarks, such as non-mutational epigenetic changes by panobinostat (Pan) and delayed cell cycle progression by abemaciclib (Abe), inhibits pancreatic cancer growth. HDAC and CDK4/6 inhibitors are effective but are prone to drug resistance and failure as single agents. Therefore, we hypothesized that combining Abe and Pan could synergistically and lethally affect PDAC survival and proliferation. Multiple cell-based assays, enzymatic activity experiments, and flow cytometry experiments were performed to determine the effects of Abe, Pan, and their combination on PDAC cells and human dermal fibroblasts. Western blotting was used to determine the expression of cell cycle, epigenetic, and apoptosis markers. The Abe-Pan combination exhibited excellent efficacy and produced synergistic effects, altering the expression of cell cycle proteins and epigenetic markers. Pan, alone and in combination with Abe, caused apoptosis in pancreatic cancer cells. Abe-Pan co-treatment showed relative safety in normal human dermal fibroblasts. Our novel combination treatment of Abe and Pan shows synergistic effects on PDAC cells. The combination induces apoptosis, shows relative safety, and merits further investigation due to its therapeutic potential in the treatment of PDAC. [ABSTRACT FROM AUTHOR]

Published

2024

37. The Engineered Drug 3′UTRMYC1-18 Degrades the c-MYC-STAT5A/B-PD-L1 Complex In Vivo to Inhibit Metastatic Triple-Negative Breast Cancer.

Author

Awah, Chidiebere U., Mun, Joo Sun, Paragodaarachchi, Aloka, Boylu, Baris, Ochu, Chika, Matsui, Hiroshi, and Ogunwobi, Olorunseun O.

Subjects

*BREAST cancer prognosis, *THERAPEUTIC use of antineoplastic agents, *RESEARCH funding, *CANCER invasiveness, *BREAST tumors, *TRANSCRIPTION factors, *TREATMENT effectiveness, *IN vivo studies, *METASTASIS, *MESSENGER RNA, *NUCLEOTIDES, *MICE, *ANIMAL experimentation, *DRUG development, *SURVIVAL analysis (Biometry), *DRUG tolerance, *SEQUENCE analysis, *DISEASE progression

Abstract

Simple Summary: The overexpression of c-MYC is implicated in many cancers, and it drives the tumors' aggressiveness and metastatic progression, but there is no clinically approved drug that targets MYC. We discovered that the MYC mRNA is stabilized by the poly U sequences on its 3′UTR. We engineered these stable elements into unstable forms in a way such that they degraded the target MYC mRNA through a process called nonsense-mediated decay. We developed the drug 3′UTRMYC1-18 and evaluated its therapeutic efficacy in a metastatic model of c-MYC-driven TNBC in vivo by delivering it with iron oxide nanocages. The constructs inhibited primary and metastatic lung and liver cancers by degrading the c-MYC-STAT5A/5B-PD-L1 complex and achieved significant survival outcomes. The in vivo data strongly suggests that this new drug is therapeutically effective in inhibiting c-MYC-driven triple-negative breast cancer and metastatic tumors. The drug was well tolerated and represents a new arsenal to target the deadly TNBC and will offer hope to patients who need it. c-MYC is overexpressed in 70% of human cancers, including triple-negative breast cancer (TNBC), yet there is no clinically approved drug that directly targets it. Here, we engineered the mRNA-stabilizing poly U sequences within the 3′UTR of c-MYC to specifically destabilize and promote the degradation of c-MYC transcripts. Interestingly, the engineered derivative outcompetes the endogenous overexpressed c-MYC mRNA, leading to reduced c-MYC mRNA and protein levels. The iron oxide nanocages (IO-nanocages) complexed with MYC-destabilizing constructs inhibited primary and metastatic tumors in mice bearing TNBC and significantly prolonged survival by degrading the c-MYC-STAT5A/B-PD-L1 complexes that drive c-MYC-positive TNBC. Taken together, we have described a novel therapy for c-MYC-driven TNBC and uncovered c-MYC-STAT5A/B-PD-L1 interaction as the target. [ABSTRACT FROM AUTHOR]

Published

2024

38. Anticancer Activity of Delta-Tocotrienol in Human Hepatocarcinoma: Involvement of Autophagy Induction.

Author

Montagnani Marelli, Marina, Macchi, Chiara, Ruscica, Massimiliano, Sartori, Patrizia, and Moretti, Roberta Manuela

Subjects

*THERAPEUTIC use of antineoplastic agents, *IN vitro studies, *LIVER tumors, *EPITHELIAL cells, *AUTOPHAGY, *DRUG resistance in cancer cells, *MITOCHONDRIA, *APOPTOSIS, *NECROSIS, *IN vivo studies, *CANCER cell culture, *CELLULAR signal transduction, *OXIDATIVE stress, *DESCRIPTIVE statistics, *REACTIVE oxygen species, *VITAMIN E, *CELL death, *LIVER, *HEPATOCELLULAR carcinoma, *LIVER transplantation

Abstract

Simple Summary: Hepatocellular carcinoma (HCC) is the predominant form of primary liver cancer (about 85–90%). In the advanced stage of the disease, existing therapies cause toxic side effects and patients often develop chemoresistance. It is therefore important to identify new compounds with low toxicity that can be used in patients with compromised liver and advanced HCC. The objective of this research was to study the antitumoral activity of delta-tocotrienol, a natural compound derived from Vitamin E, on human hepatocarcinoma cell lines. This study supports the evidence that this compound exerts an antitumoral action activating the autophagic process, leading to cancer cell death. We believe that these data may provide a basis for considering delta-tocotrienol as a potential adjuvant therapy for the treatment of advanced HCC. (1) Hepatocellular carcinoma (HCC) is the predominant form of primary liver cancer. Surgical resection, tumor ablation, and liver transplantation are curative treatments indicated for early-stage HCC. The management of intermediate and advanced stages of pathology is based on the use of systemic therapies which often show important side effects. Vitamin E-derivative tocotrienols (TTs) play antitumoral properties in different tumors. Here, we analyzed the activity of delta-TT (δ-TT) on HCC human cell lines. (2) We analyzed the ability of δ-TT to trigger apoptosis, to induce oxidative stress, autophagy, and mitophagy in HepG2 cell line. We evaluated the correlation between the activation of autophagy with the ability of δ-TT to induce cell death. (3) The data obtained demonstrate that δ-TT exerts an antiproliferative and proapoptotic effect in HCC cells. Furthermore, δ-TT induces the release of mitochondrial ROS and causes a structural and functional alteration of the mitochondria compatible with a fission process. Finally, δ-TT triggers selective autophagy process removing dysfunctional mitochondria. Inhibition of autophagy reversed the cytotoxic action of δ-TT. (4) Our results demonstrate that δ-TT through the activation of autophagy could represent a potential new approach in the treatment of advanced HCC. [ABSTRACT FROM AUTHOR]

Published

2024

39. Radiosynthesis and Preclinical Evaluation of 18 F-Labeled Estradiol Derivatives with Different Lipophilicity for PET Imaging of Breast Cancer.

Author

Friedel, Anna, Prante, Olaf, and Maschauer, Simone

Subjects

*BREAST tumor diagnosis, *CLINICAL drug trials, *BIOLOGICAL models, *IN vitro studies, *RADIOPHARMACEUTICALS, *RESEARCH funding, *BREAST tumors, *ANTINEOPLASTIC agents, *POSITRON emission tomography, *TREATMENT effectiveness, *IN vivo studies, *CANCER cell culture, *RADIOISOTOPES, *DESCRIPTIVE statistics, *ESTRADIOL, *MICE, *CELL lines, *ANIMAL experimentation, *MOLECULAR structure, *FLUORINE isotopes, *DRUG development, *COMPARATIVE studies, *PHARMACODYNAMICS

Abstract

Simple Summary: Breast cancer is one of the most prevalent forms of cancer diagnosed in women worldwide. Since the estradiol receptor (ER) is overexpressed in 75% of breast tumors, it is a reasonable target for tumor diagnosis and therapy. This study focuses on the development and preclinical evaluation of readily synthesized 18F-labeled estradiol derivatives with different lipophilicity. The least hydrophilic derivative, 18F-TA-Glyco-EE, showed the highest cellular uptake in ER-positive breast cancer cells. The in vivo PET imaging of breast tumor-bearing mice demonstrated the desired rapid clearance of the tracer from the excretory organ through the liver. The in vitro autoradiography of ER-positive tumor sections confirmed the high specific binding of 18F-TA-Glyco-EE. In conclusion, 18F-TA-Glyco-EE may be a promising candidate for imaging of ER-positive breast cancer. About 75% of breast tumors show an overexpression of the estradiol receptor (ER), making it a valuable target for tumor diagnosis and therapy. To date, 16α-[18F]fluoroestradiol (FES) is the only FDA-approved imaging probe for the positron emission tomography (PET) imaging of ER-positive (ER+) breast cancer. However, FES has the drawback of a high retention in the liver. Therefore, the aim of this study was the development and preclinical evaluation of estradiol (E2) derivatives with different lipophilicity. Three 18F-labeled prosthetic groups (two glycosyl and one PEG azide) were chosen for conjugation with ethinyl estradiol (EE) by 18F-CuAAC (Cu-catalyzed azide-alkyne cycloaddition). The cellular uptake in ER+ MCF-7 tumor cells was highest for the less hydrophilic derivative (18F-TA-Glyco-EE). In nude mice bearing different breast tumors (ER+ MCF-7 and T47D versus ER− MDA-MB-231), 18F-TA-Glyco-EE revealed a high uptake in the liver (13%ID/g, 30 min p.i.), which decreased over 90 min to 1.2%ID/g, indicating fast hepatobiliary clearance. The statistically significant difference of 18F-TA-Glyco-EE uptake in T47D compared to MDA-MB-231 tumors at 60–90 min p.i. indicated ER-specific uptake, whereas in vivo PET imaging did not provide evidence for specific uptake of 18F-TA-Glyco-EE in MCF-7 tumors, probably due to ER occupation by E2 after E2-dependent MCF-7 tumor growth in mice. However, in vitro autoradiography revealed a high specific binding of 18F-TA-Glyco-EE to ER+ tumor slices. We conclude that 18F-TA-Glyco-EE, with its increased hydrophilicity after deacetylation in the blood and thus rapid washout from non-target tissues, may be a viable alternative to FES for the PET imaging of breast cancer. [ABSTRACT FROM AUTHOR]

Published

2024

40. Modulation of Breast Cancer Cell Apoptosis and Macrophage Polarization by Mistletoe Lectin in 2D and 3D Models.

Author

Hong, Chang-Eui and Lyu, Su-Yun

Subjects

*CANCER cells, *BREAST cancer, *IMMUNE response, *ANTINEOPLASTIC agents, *IN vivo studies, *CELL culture

Abstract

Korean mistletoe (Viscum album L. var. coloratum) is renowned for its medicinal properties, including anti-cancer and immunoadjuvant effects. This study aimed to elucidate the mechanisms by which Korean mistletoe lectin (V. album L. var. coloratum agglutinin; VCA) modulates breast cancer cell apoptosis and macrophage polarization. The specific objectives were to (1) investigate the direct effects of VCA on MCF-7 breast cancer cells and THP-1-derived M1/M2 macrophages; (2) analyze the impact of VCA on the paracrine interactions between these cell types; and (3) compare the efficacy of VCA in 2D vs. 3D co-culture models to bridge the gap between in vitro and in vivo studies. We employed both 2D and 3D models, co-culturing human M1/M2 macrophages with human MCF-7 breast cancer cells in a Transwell system. Our research demonstrated that M1 and M2 macrophages significantly influenced the immune and apoptotic responses of breast cancer cells when exposed to VCA. M1 macrophages exhibited cytotoxic characteristics and enhanced VCA-induced apoptosis in both 2D and 3D co-culture models. Conversely, M2 macrophages initially displayed a protective effect by reducing apoptosis in breast cancer cells, but this protective effect was reversed upon exposure to VCA. Furthermore, our findings illustrate VCA's ability to modulate M1 and M2 polarization in breast cancer cells. Finally, the use of magnetic 3D cell cultures suggests their potential to yield results comparable to conventional 2D cultures, bridging the gap between in vitro and in vivo studies. [ABSTRACT FROM AUTHOR]

Published

2024

41. Retreatability of Bioceramic-Filled Teeth: Comparative Analysis of Single-Cone and Carrier-Based Obturation Using a Reciprocating Technique.

Author

Spinelli, Andrea, Zamparini, Fausto, Lenzi, Jacopo, Carboni, Davide, Gandolfi, Maria Giovanna, and Prati, Carlo

Subjects

CONE beam computed tomography, X-ray imaging, DENTAL pulp cavities, IN vivo studies, COMPARATIVE studies

Abstract

Objectives: To evaluate the retreatment efficacy of premixed bioceramic sealer using a reciprocating system, comparing single-cone and carrier-based obturation techniques. Materials and Methods: Twenty-three monoradicular teeth with oval canals were divided into two groups: NeoSealer Flo with single cone (SC) and NeoSealer Flo with Guttafusion (GF). Retreatment was performed using Reciproc Blue (RB) with a crown-down technique. X-ray and CBCT images were taken to measure the remnant areas and volumes. Results: Apical patency was achieved in all the samples. The remnants were mostly distributed in the middle third in the GF group, while an equal distribution in both the middle and apical thirds was observed in the SC group. The GF group had a lower remnant area and volume after RB 50.05, respectively (0.18 ± 0.33 mm2 vs. 0.39 ± 0.80 mm2 and 0.36 ± 0.59 mm3 vs. 0.51 ± 1.16 mm3). The use of RB 50.05 led to an additional reduction in the remnant areas in the SC (14.89%) and GF (69.49%) groups, while in terms of the volume, the reductions were 20.63% and 36.36%. Conclusions: Reciprocating instruments are effective in removing remnants from root canals filled with both single-cone and carrier-based techniques. The blooming effect in CBCT imaging suggests further in vivo studies for validation. [ABSTRACT FROM AUTHOR]

Published

2024

42. Analysis of Early-Retrieved Dual-Mobility Polyethylene Liners for Total Hip Replacement.

Author

Smeeton, Mackenzie, Isaac, Graham, Wilcox, Ruth, Anderson, James, Board, Tim, Van Citters, Douglas W., and Williams, Sophie

Subjects

MATERIALS testing, RISK assessment, TOTAL hip replacement, COMPLICATIONS of prosthesis, RESEARCH funding, SURFACE properties, IN vivo studies, DESCRIPTIVE statistics, COBALT, ARTIFICIAL joints, POLYETHYLENE, PROSTHESIS design & construction, LONGEVITY, EVALUATION, DISEASE risk factors

Abstract

Despite their emerging use, the in vivo behaviour of dual-mobility (DM) total hip replacements (THRs) is not well understood. Therefore, the purpose of this study was to assess the articulating surfaces of 20 early-retrieved DM polyethylene liners (mean length of implantation 20.0 ± 18.8 months) for damage to improve the current understanding of their in vivo functional mechanisms. The internal and external surfaces of each liner were visually and geometrically assessed, and the material composition of embedded debris particles were further characterized. Scratching and pitting were the most common modes of damage identified on either surface, and a high incidence of burnishing (50%) and embedded debris (65%) were observed on the internal and external surfaces, respectively. Embedded debris particles were commonly titanium- or iron-based, although other materials such as cobalt-chrome and tantalum were also identified. The geometric assessment demonstrated highly variable damage patterns across the liners, with the internal surfaces commonly presenting with crescent-shaped, circumferential, or circular regions of penetration whilst the external surfaces commonly presented with regions of deep pitting or gouging. This study demonstrates that DM-THRs primarily articulate at the head/liner junction, and that polyethylene liners are capable of rotating about the femoral neck axis, although the extent of this may be limited in some cases. Additionally, this study suggests that intra-prosthetic dislocation and edge loading may remain pertinent failure mechanisms of DM implants despite the advent of highly crosslinked polyethylene and design features, thus highlighting the need for enhanced monitoring of these devices. [ABSTRACT FROM AUTHOR]

Published

2024

43. A Host–Guest Platform for Highly Efficient, Quantitative, and Rapid Detection of Nitroreductase.

Author

Si, Wen, Jiao, Yang, Jia, Xianchao, Gao, Meng, Zhang, Yihao, Gao, Ye, Zhang, Lei, and Duan, Chunying

Subjects

BIOCHEMICAL substrates, DETECTION limit, FLUORESCENCE, EARLY diagnosis, IN vivo studies

Abstract

Nitroreductase (NTR) is an enzyme expressed at an abnormally high level in solid tumors, which is associated with the hypoxia level in tumors. The establishment of a high-performance and convenient fluorescent platform for the fast monitoring of NTR is of pivotal importance. Herein, a novel host–guest complex was created by encapsulating a fluorescent substrate GP-NTR within a metal–organic capsule Zn-MPB that included a NADH mimic for the detection of hypoxia via responding to nitroreductase (NTR) with fast responsiveness and good fluorescence imaging. Notably, the double-substrate process was streamlined to a single–substrate process by the host–guest supramolecular method in the catalytic process of NTR, which enabled the reaction to be independent of the cofactor NADH supply and shortened the distance between the substrate and the active site of NTR. The increasing fluorescence intensity of Zn-MPB⊃GP-NTR exhibits a linear relationship with NTR concentration and shows a fast response toward NTR in solution in tens of seconds. Zn-MPB⊃GP-NTR also displays high sensitivity to NTR with a low detection limit of 6.4 ng/mL. Cells and in vivo studies have confirmed that Zn-MPB⊃GP-NTR could be successfully applied for the fast imaging of NTR in NTR-overexpressed tumor cells and tumor-bearing animals. The host–guest platform not only provides a new avenue for the design and optimization of a fluorescence detection platform for the rapid and quantitative detection of NTR activity, but also offers an imaging tool for the early diagnosis of hypoxia-related tumors. [ABSTRACT FROM AUTHOR]

Published

2024

44. Customizable Hydrogel Coating of ECM-Based Microtissues for Improved Cell Retention and Tissue Integrity.

Author

Elgin, Shani, Silberman, Eric, Shapira, Assaf, and Dvir, Tal

Subjects

HYDROGELS, SURFACE coatings, TISSUE engineering, CALCIUM carbonate, MICRODROPLETS, IN vivo studies

Abstract

Overcoming the oxygen diffusion limit of approximately 200 µm remains one of the most significant and intractable challenges to be overcome in tissue engineering. The fabrication of hydrogel microtissues and their assembly into larger structures may provide a solution, though these constructs are not without their own drawbacks; namely, these hydrogels are rapidly degraded in vivo, and cells delivered via microtissues are quickly expelled from the area of action. Here, we report the development of an easily customized protocol for creating a protective, biocompatible hydrogel barrier around microtissues. We show that calcium carbonate nanoparticles embedded within an ECM-based microtissue diffuse outwards and, when then exposed to a solution of alginate, can be used to generate a coated layer around the tissue. We further show that this technique can be fine-tuned by adjusting numerous parameters, granting us full control over the thickness of the hydrogel coating layer. The microtissues' protective hydrogel functioned as hypothesized in both in vitro and in vivo testing by preventing the cells inside the tissue from escaping and protecting the microdroplets against external degradation. This technology may provide microtissues with customized properties for use as sources of regenerative therapies. [ABSTRACT FROM AUTHOR]

Published

2024

45. Synthesis and Characterization of Carboxymethylcellulose-Functionalized Magnetite Nanoparticles as Contrast Agents for THz Spectroscopy with Applications in Oncology.

Author

Schreiner, Oliver Daniel, Samoila, Petrisor, Schreiner, Thomas Gabriel, Socotar, Diana, and Ciobanu, Romeo Cristian

Subjects

CONTRAST media, DIELECTRIC loss, CARBOXYMETHYLCELLULOSE, CANCER cells, IN vivo studies, CITRIC acid

Abstract

This paper describes a process to obtain magnetite functionalized with carboxymethylcellulose via coprecipitation by means of a preliminary stabilization of magnetite in citric acid. The magnetite assemblies successfully passed in vitro and in vivo tests of bio-compatibility. The measured values for the dielectric loss factor are remarkably high, a prerequisite for the assemblies' potential use as contrast agents. Broadband THz spectroscopy analysis was performed to identify the most relevant frequency bands (here, 3.2–4 THz) where the signal difference between normal cells and cancer cells is relevant for the particles' potential use as contrast agents for THz imaging, with applications in oncology. [ABSTRACT FROM AUTHOR]

Published

2024

46. Maintenance Therapy for Pancreatic Cancer, a New Approach Based on the Synergy between the Novel Agent GP-2250 (Misetionamide) and Gemcitabine.

Author

Buchholz, Marie, Majchrzak-Stiller, Britta, Peters, Ilka, Hahn, Stephan, Skrzypczyk, Lea, Beule, Lena, Uhl, Waldemar, Braumann, Chris, Strotmann, Johanna, and Höhn, Philipp

Subjects

*ADENOCARCINOMA, *BIOLOGICAL models, *IN vitro studies, *RESEARCH funding, *ANTINEOPLASTIC agents, *TREATMENT effectiveness, *IN vivo studies, *DESCRIPTIVE statistics, *CANCER patients, *PANCREATIC tumors, *MICE, *CELL lines, *DUCTAL carcinoma, *GEMCITABINE, *ANIMAL experimentation, *MOLECULAR structure, *COMPARATIVE studies, *PHARMACODYNAMICS

Abstract

Simple Summary: Pancreatic ductal adenocarcinoma (PDAC) is an aggressive cancer type with rising incidences worldwide and poor survival. GP-2250 is an emerging agent showing a high antineoplastic capacity. Currently, GP-2250 is under phase I clinical trial for PDAC. This study was the first to evaluate the antineoplastic effects of GP-2250 on pancreatic adenocarcinoma in combination with Gemcitabine in a PDAC patient-derived mouse xenograft (PDX) setting. This combination showed highly synergistic effects in a primary cell culture model, as well as in a first-line and a maintenance setting using PDX. Changes in the CD133 content of treated spheroid cultures provide first indicators for this synergism. These findings demonstrate the vast potential of this highly promising combination in the maintenance therapy of PDAC patients. The novel Oxathiazinane derivative GP-2250 (Misetionamide) displays antineoplastic activity in vitro and in vivo, as previously shown in pancreatic cancer cells and in patient-derived mouse xenografts (PDX). Currently, GP 2250 is under phase I clinical trial in pancreatic ductal adenocarcinoma (PDAC). GP-2250 in combination with Gemcitabine displays a high synergistic capacity in various primary and established pancreatic cancer cell lines. Additionally, in the eight PDX models tested, the drug combination was superior in reducing tumor volume with an aggregate tumor regression (ATR) of 74% compared to Gemcitabine alone (ATR: 10%). Similarly, in a PDX maintenance setting following two weeks of treatment with nab-Paclitaxel plus Gemcitabine, the combination of GP-2250 plus Gemcitabine resulted in outstanding tumor control (ATR: 79%) compared to treatment with Gemcitabine alone (ATR: 60%). Furthermore, GP-2250 reduced the ratio of tumor-initiating CD133+ markers on the surface of PDAC cells in spheroid cultures, indicating a possible mechanism for the synergistic effect of both substances. Considering the high tolerability of GP 2250, these results may open up a new approach to maintenance therapy with GP-2250/Gemcitabine combination following nab-Paclitaxel plus Gemcitabine as first-line treatment. [ABSTRACT FROM AUTHOR]

Published

2024

47. Sanguinarine Induces Necroptosis of HCC by Targeting PKM2 Mediated Energy Metabolism.

Author

Kong, Rui, Wang, Nan, Zhou, Chunli, Zhou, Yuqing, Guo, Xiaoyan, Wang, Dongyan, Shi, Yihai, Wan, Rong, Zheng, Yuejuan, and Lu, Jie

Subjects

*COMPUTER-assisted molecular modeling, *BIOLOGICAL models, *FLOW cytometry, *IN vitro studies, *TISSUE arrays, *RESEARCH funding, *COLONY-forming units assay, *GLYCOLYSIS, *PHOSPHORYLATION, *MITOCHONDRIA, *T-test (Statistics), *DATA analysis, *HOMEOSTASIS, *ANTINEOPLASTIC agents, *ELECTRON microscopy, *APOPTOSIS, *CELL proliferation, *PHYTOCHEMICALS, *TUMOR markers, *CYTOSKELETAL proteins, *CELLULAR signal transduction, *REVERSE transcriptase polymerase chain reaction, *DESCRIPTIVE statistics, *IN vivo studies, *FLUORESCENT antibody technique, *ENERGY metabolism, *CELL lines, *MICE, *METASTASIS, *REACTIVE oxygen species, *IMMUNOHISTOCHEMISTRY, *CELL death, *ANIMAL experimentation, *WESTERN immunoblotting, *GENE expression profiling, *ONE-way analysis of variance, *STATISTICS, *MOLECULAR structure, *STAINS & staining (Microscopy), *DATA analysis software, *HEPATOCELLULAR carcinoma, *SEQUENCE analysis, *PRECIPITIN tests, *PHARMACODYNAMICS

Abstract

Simple Summary: Here, we show that the plant-derived product, sanguinarine, inhibited aerobic glycolysis and oxidative phosphorylation; which resulted in energy alternations and necroptosis of tumor cells. Moreover, we identify the PKM2/β-catenin axis as the main target in sanguinarine treatment against HCC development. Backgrounds: Abnormal metabolism is the hallmark of hepatocellular carcinoma. Targeting energy metabolism has become the major focus of cancer therapy. The natural product, sanguinarine, displays remarkable anti-tumor properties by disturbing energy homeostasis; however, the underlying mechanism has not yet been elucidated. Methods: The anticancer activity of sanguinarine was determined using CCK-8 and colony formation assay. Morphological changes of induced cell death were observed under electron microscopy. Necroptosis and apoptosis related markers were detected using western blotting. PKM2 was identified as the target by transcriptome sequencing. Molecular docking assay was used to evaluate the binding affinity of sanguinarine to the PKM2 molecule. Furthermore, Alb-CreERT2; PKM2loxp/loxp; Rosa26RFP mice was used to construct the model of HCC—through the intervention of sanguinarine in vitro and in vivo—to accurately explore the regulation effect of sanguinarine on cancer energy metabolism. Results: Sanguinarine inhibited tumor proliferation, metastasis and induced two modes of cell death. Molecular docking of sanguinarine with PKM2 showed appreciable binding affinity. PKM2 kinase activity and aerobic glycolysis rate declined, and mitochondrial oxidative phosphorylation was inhibited by sanguinarine application; these changes result in energy deficits and lead to necroptosis. Additionally, sanguinarine treatment prevents the translocation of PKM2 into the nucleus and suppresses the interaction of PKM2 with β-catenin; the transcriptional activity of PKM2/β-catenin signaling and its downstream genes were decreased. Conclusions: Sanguinarine showed remarkable anti-HCC activity via regulating energy metabolism by PKM2/β-catenin signaling. On the basis of these investigations, we propose that sanguinarine might be considered as a promising compound for discovery of anti-HCC drugs. [ABSTRACT FROM AUTHOR]

Published

2024

48. Optimizing Ex Vivo CAR-T Cell-Mediated Cytotoxicity Assay through Multimodality Imaging.

Author

Foulke, John G., Chen, Luping, Chang, Hyeyoun, McManus, Catherine E., Tian, Fang, and Gu, Zhizhan

Subjects

*HIGH throughput screening (Drug development), *T cells, *DIAGNOSTIC imaging, *IMMUNODIAGNOSIS, *IN vivo studies, *CELL lines, *RNA, *DRUG development, *CELL surface antigens, *DRUG discovery, *SEQUENCE analysis

Abstract

Simple Summary: CAR-T cell therapies are highly effective for treating cancers, particularly liquid tumors, and are now being tested in clinical trials for solid tumors. The FDA's initiative for new drug discovery methods highlights the need for precise ex vivo assays for CAR-T development. Current assays have drawbacks, such as using radioactive materials and lacking real-time measurement and automation. To improve these assays, we used multimodality imaging (bioluminescence, impedance, phase contrast, and fluorescence) to monitor CAR-T cells with cancer cells in real-time. We also adjusted cell ratios for optimal results. Our optimized assay showed that CAR-T cells effectively attacked cancer cells, providing precise, reliable, and high-throughput measurements. CAR-T cell-based therapies have demonstrated remarkable efficacy in treating malignant cancers, especially liquid tumors, and are increasingly being evaluated in clinical trials for solid tumors. With the FDA's initiative to advance alternative methods for drug discovery and development, full human ex vivo assays are increasingly essential for precision CAR-T development. However, prevailing ex vivo CAR-T cell-mediated cytotoxicity assays are limited by their use of radioactive materials, lack of real-time measurement, low throughput, and inability to automate, among others. To address these limitations, we optimized the assay using multimodality imaging methods, including bioluminescence, impedance tracking, phase contrast, and fluorescence, to track CAR-T cells co-cultured with CD19, CD20, and HER2 luciferase reporter cancer cells in real-time. Additionally, we varied the ratio of CAR-T cells to cancer cells to determine optimal cytotoxicity readouts. Our findings demonstrated that the CAR-T cell group effectively attacked cancer cells, and the optimized assay provided superior temporal and spatial precision measurements of ex vivo CAR-T killing of cancer cells, confirming the reliability, consistency, and high throughput of the optimized assay. [ABSTRACT FROM AUTHOR]

Published

2024

49. A Systematic Review of Human Amnion Enhanced Cartilage Regeneration in Full-Thickness Cartilage Defects.

Author

Abd Halim, Nur Farah Anis, Ab Aziz, Atiqah, Tan, Sik-Loo, Selvaratnam, Veenesh, and Kamarul, Tunku

Subjects

*AMNION, *TISSUE engineering, *CARTILAGE regeneration, *DATABASES, *ELECTRONIC information resource searching, *IN vivo studies

Abstract

Cartilage defects present a significant challenge in orthopedic medicine, often leading to pain and functional impairment. To address this, human amnion, a naturally derived biomaterial, has gained attention for its potential in enhancing cartilage regeneration. This systematic review aims to evaluate the efficacy of human amnion in enhancing cartilage regeneration for full-thickness cartilage defects. An electronic search was conducted on MEDLINE-PubMed, Web of Science (WoS), and the Scopus database up to 27 December 2023 from 2007. A total of 401 articles were identified. After removing 125 duplicates and excluding 271 articles based on predetermined criteria, only 5 articles remained eligible for inclusion in this systematic review. All five eligible articles conducted in vivo studies utilizing rabbits as subjects. Furthermore, analysis of the literature reveals an increasing trend in the frequency of utilizing human amnion for the treatment of cartilage defects. Various forms of human amnion were utilized either alone or seeded with cells prior to implantation. Histological assessments and macroscopic observations indicated usage of human amnion improved cartilage repair outcomes. All studies highlighted the positive results despite using different forms of amnion tissues. This systematic review underscores the promising role of human amnion as a viable option for enhancing cartilage regeneration in full-thickness cartilage defects, thus offering valuable insights for future research and clinical applications in orthopedic tissue engineering. [ABSTRACT FROM AUTHOR]

Published

2024

50. TMEM176B Promotes EMT via FGFR/JNK Signalling in Development and Tumourigenesis of Lung Adenocarcinoma.

Author

Sun, Ping-Hui, Xia, Siyu, Yuan, Runzhu, Zhang, Bin, and Wang, Guangsuo

Subjects

*IN vitro studies, *BIOLOGICAL models, *EPITHELIAL-mesenchymal transition, *CANCER invasiveness, *RESEARCH funding, *BIOLOGICAL transport, *CELL physiology, *CELL proliferation, *CELLULAR signal transduction, *IN vivo studies, *METASTASIS, *GENE expression, *PROTEOMICS, *CELL death, *LUNG cancer, *TRANSFERASES, *CELL receptors

Abstract

Simple Summary: TMEM176B has been reported to play a significant role in the regulation of dendritic cell maturation and other immune functions. Additionally, TMEM176B has been implicated in the development of various cancers, including breast cancer and colorectal cancer, where its expression levels correlate with disease progression and patient outcomes. This study aims to investigate the role of TMEM176B in the development of lung adenocarcinoma (LUAD). Our research indicates that the overexpression of TMEM176B is associated with a poor prognosis in LUAD patients, signifying more aggressive disease and reduced survival rates. Moreover, we have found that TMEM176B overexpression enhances the epithelial-mesenchymal transition (EMT) via the FGFR/JNK signalling pathway. This pathway is integral to cell growth, differentiation, and survival and its dysregulation can contribute to tumour progression and metastasis. These findings suggest that TMEM176B could serve as a potential therapeutic target for LUAD treatment, offering new avenues for developing targeted therapies. Lung cancer, the leading cause of cancer-related incidence and mortality worldwide, is characterised by high invasiveness and poor prognosis. Novel therapeutic targets are required, especially for patients with inoperable metastatic disease requiring systemic therapies to improve patients' welfare. Recently, studies indicated that TMEM176B is a positive regulator in breast and gastric cancers, and it could be a potential target for treatment. In this study, we used single-cell sequencing, proteomics, Co-IP, and in vivo and in vitro experimental models to investigate the role of TMEM176B in lung adenocarcinoma development. Our study indicated that TMEM176B expression was enhanced in lung adenocarcinoma tissues, and it was associated with shorter overall survival (OS). TMEM176B promoted cellular functions, including cell proliferation, invasion, migration and adhesion in vitro and tumour growth in vivo. Moreover, the tube formation ability of endothelial cells was enhanced by treating with the tumour cell-conditioned medium. We have also demonstrated that TMEM176B regulated EMT via the FGFR1/JNK/Vimentin/Snail signalling cascade. Overall, our study suggests TMEM176B could be a potential therapeutic target in lung adenocarcinoma. [ABSTRACT FROM AUTHOR]

Published

2024