Your search keyword '"anti-apoptosis"' showing total 1,445 results

1. Comparative Study on Hepatoprotective Effects of Traditional Herbs, Roots of Angelica gigas Nakai, Glycyrrhiza uralensis Fischer, Zizyphus jujuba Mill., and Fruits of Paeonia lactiflora Pall., on Ethanol-Induced Liver Injury in Mice.

Author

Kim, So-Yeon, Oh, Kyung-Jin, Seo, Yu-Ri, Kim, Young-Woo, Song, Phil Hyun, and Song, Chang-Hyun

Subjects

ORAL drug administration, TEMPERANCE, CYTOCHROME P-450, LABORATORY mice, IMMUNOHISTOCHEMISTRY

Abstract

Alcohol-associated liver disease (ALD) is a major cause of chronic liver disease, with few effective treatments besides alcohol abstinence. Angelicae Gigantis Radix (AG), Glycyrrhizae Radix et Rhizoma (GR), Paeoniae Radix (PR), and Zizyphi Fructus (ZF) are traditional herbs used to treat various ailments, including liver diseases. While several studies have reported the beneficial effects of GR on ALD, the effects of AG, PR, and ZF remain underexplored. Therefore, their efficacy and mechanisms against ALD were investigated using an alcohol-related liver injury model. The model was induced by ethanol gavage in C57BL/6J mice for 14 days, followed by oral administration of AG, GR, PR, and ZF one hour post-induction. The administration of these herbs reduced liver weight, and improved serum biomarkers of liver injury (ALT, AST, albumin). The herbs enhanced hepatic antioxidant capacity (GSH, SOD, catalase) and suppressed the production of proinflammatory cytokines (TNF-α, IL-1β) and apoptotic changes (caspase-3). The mechanisms of action involved lipid-lowering gene modulation through regulation of the cytochrome P450 2E1/Sirtuin 1/Nrf2 pathways. Histopathological and immunohistochemical analyses revealed that these herbs attenuated hepatocyte damage and steatosis via antioxidant, anti-inflammatory, and antiapoptotic effects. These findings suggest that traditional herbs, particularly AG, could be promising alternative therapies for treating ALD. [ABSTRACT FROM AUTHOR]

Published

2024

2. Emodin alleviates intestinal ischemia–reperfusion injury through antioxidant stress, anti-inflammatory responses and anti-apoptosis effects via Akt-mediated HO-1 upregulation

Author

Yinyin Liu, Tuo Ji, Haixing Jiang, Meng Chen, Wanli Liu, Zongze Zhang, and Xianghu He

Subjects

Intestinal ischemia–reperfusion injury, Antioxidant stress, Anti-inflammation, Anti-apoptosis, Akt/HO-1 signaling pathway, Therapeutics. Pharmacology, RM1-950

Abstract

Abstract Background Intestinal ischemia–reperfusion (I/R) injury is a severe vascular emergency. Previous research indicated the protective effects of Emodin on I/R injury. Our study aims to explore the effect of Emodin on intestinal I/R (II/R) injury and elucidate the underlying mechanisms. Methods C57BL/6 mice and Caco-2 cells were used for in vivo and in vitro studies. We established an animal model of II/R injury by temporarily occluding superior mesenteric artery. We constructed an oxygen–glucose deprivation/reoxygenation (OGD/R) cell model using a hypoxia-reoxygenation incubator. Different doses of Emodin were explored to determine the optimal therapeutic dose. Additionally, inhibitors targeting the protein kinase B (Akt) or Heme oxygenase-1 (HO-1) were administered to investigate their potential protective mechanisms. Results Our results demonstrated that in animal experiments, Emodin mitigated barrier disruption, minimized inflammation, reduced oxidative stress, and inhibited apoptosis. When Akt or HO-1 was inhibited, the protective effect of Emodin was eliminated. Inhibiting Akt also reduced the level of HO-1. In cell experiments, Emodin reduced inflammation and apoptosis in the OGD/R cell model. Additionally, when Akt or HO-1 was inhibited, the protective effect of Emodin was weakened. Conclusions Our findings suggest that Emodin may protect the intestine against II/R injury through the Akt/HO-1 signaling pathway.

Published

2024

3. Emodin alleviates intestinal ischemia–reperfusion injury through antioxidant stress, anti-inflammatory responses and anti-apoptosis effects via Akt-mediated HO-1 upregulation.

Author

Liu, Yinyin, Ji, Tuo, Jiang, Haixing, Chen, Meng, Liu, Wanli, Zhang, Zongze, and He, Xianghu

Subjects

EMODIN, INTESTINAL injuries, REPERFUSION injury, PROTEIN kinase B, PROTEIN kinase inhibitors, MESENTERIC artery

Abstract

Background: Intestinal ischemia–reperfusion (I/R) injury is a severe vascular emergency. Previous research indicated the protective effects of Emodin on I/R injury. Our study aims to explore the effect of Emodin on intestinal I/R (II/R) injury and elucidate the underlying mechanisms. Methods: C57BL/6 mice and Caco-2 cells were used for in vivo and in vitro studies. We established an animal model of II/R injury by temporarily occluding superior mesenteric artery. We constructed an oxygen–glucose deprivation/reoxygenation (OGD/R) cell model using a hypoxia-reoxygenation incubator. Different doses of Emodin were explored to determine the optimal therapeutic dose. Additionally, inhibitors targeting the protein kinase B (Akt) or Heme oxygenase-1 (HO-1) were administered to investigate their potential protective mechanisms. Results: Our results demonstrated that in animal experiments, Emodin mitigated barrier disruption, minimized inflammation, reduced oxidative stress, and inhibited apoptosis. When Akt or HO-1 was inhibited, the protective effect of Emodin was eliminated. Inhibiting Akt also reduced the level of HO-1. In cell experiments, Emodin reduced inflammation and apoptosis in the OGD/R cell model. Additionally, when Akt or HO-1 was inhibited, the protective effect of Emodin was weakened. Conclusions: Our findings suggest that Emodin may protect the intestine against II/R injury through the Akt/HO-1 signaling pathway. [ABSTRACT FROM AUTHOR]

Published

2024

4. Exploring the trichloroacetic acid-induced toxicity on the hepato-renal system and intervention by virgin coconut oil-rich diet.

Author

Ajeigbe, Kazeem Olasunkanmi and Oladokun, Olayemi Olutobi

Subjects

NUCLEAR factor E2 related factor, COCONUT oil, LIVER enzymes, SUPEROXIDE dismutase, PHENOLIC acids

Abstract

Copyright of Acta Biologica Slovenica is the property of Drustvo Biologov Slovenije and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

5. Natural Eggshell Membrane Attenuates Chondrocyte Inflammation and Surgically Induced Osteoarthritis in Rats.

Author

Kim, Jun-Il, Choi, Joo-Hee, Seo, Min-Soo, Kim, Jong-Kyu, Chun, Yoon-Seok, Kwon, Young-Sam, and Ku, Sae-Kwang

Subjects

EGGSHELLS, KNEE, JOINT diseases, OSTEOARTHRITIS, LABORATORY rats, ENDOCHONDRAL ossification, JOINTS (Anatomy), EXTRACELLULAR matrix

Abstract

Osteoarthritis (OA) is a degenerative joint disease that mainly occurs due to the cellular inflammatory response and the destruction of joint cartilage. Natural eggshell membrane (NEM), a byproduct of egg processing, might be a promising knee OA treatment because of its anti-inflammatory properties and resemblance to synovial membrane components. Therefore, we aimed to study the anti-inflammatory effects of NEM in OA, utilizing both in vitro experiments with primary chondrocytes and in vivo studies with a surgical rat model of knee OA. In vitro studies showed that NEM treatment improved cell viability in chondrocytes exposed to interleukin-1α by upregulating chondrogenic genes and inhibiting enzymes that degrade the extracellular matrix (ECM). Furthermore, the anti-inflammatory effects of NEM were observed in chondrocytes induced by lipopolysaccharide. Administering NEM orally for 56 days after OA surgery resulted in enhanced joint swelling reduction and improved mobility in animal models, as well as an increase in bone density and cartilage compressive strength in a concentration-dependent manner. It inhibited inflammatory markers (5-lipoxygenase and prostaglandin E2) and extracellular matrix (ECM)-degrading enzymes (MMP-2 and MMP-9) in both the cartilage and synovium. Simultaneously, there was an upregulation in the expression of chondrogenic genes (Sox9, aggrecan, and Col-2). The histopathological and immunohistochemical analyses demonstrated that NEM's anti-inflammatory, anti-apoptotic, and chondrogenic properties contributed to the mitigation of joint degradation and synovial inflammation. Therefore, NEM is a potential alternative or functional food agent that addresses both anti-inflammatory and chondroprotective aspects in OA. [ABSTRACT FROM AUTHOR]

Published

2024

6. Therapies for Cirrhotic Cardiomyopathy: Current Perspectives and Future Possibilities.

Author

Liu, Hongqun, Ryu, Daegon, Hwang, Sangyoun, and Lee, Samuel S.

Subjects

*CARDIOMYOPATHIES, *CARDIAC glycosides, *ACUTE kidney failure, *HEPATORENAL syndrome, *HEART diseases

Abstract

Cirrhotic cardiomyopathy (CCM) is defined as cardiac dysfunction associated with cirrhosis in the absence of pre-existing heart disease. CCM manifests as the enlargement of cardiac chambers, attenuated systolic and diastolic contractile responses to stress stimuli, and repolarization changes. CCM significantly contributes to mortality and morbidity in patients who undergo liver transplantation and contributes to the pathogenesis of hepatorenal syndrome/acute kidney injury. There is currently no specific treatment. The traditional management for non-cirrhotic cardiomyopathies, such as vasodilators or diuretics, is not applicable because an important feature of cirrhosis is decreased systemic vascular resistance; therefore, vasodilators further worsen the peripheral vasodilatation and hypotension. Long-term diuretic use may cause electrolyte imbalances and potentially renal injury. The heart of the cirrhotic patient is insensitive to cardiac glycosides. Therefore, these types of medications are not useful in patients with CCM. Exploring the therapeutic strategies of CCM is of the utmost importance. The present review summarizes the possible treatment of CCM. We detail the current status of non-selective beta-blockers (NSBBs) in the management of cirrhotic patients and discuss the controversies surrounding NSBBs in clinical practice. Other possible therapeutic agents include drugs with antioxidant, anti-inflammatory, and anti-apoptotic functions; such effects may have potential clinical application. These drugs currently are mainly based on animal studies and include statins, taurine, spermidine, galectin inhibitors, albumin, and direct antioxidants. We conclude with speculations on the future research directions in CCM treatment. [ABSTRACT FROM AUTHOR]

Published

2024

7. Advancements and recent explorations of anti-cancer activity of chrysin: from molecular targets to therapeutic perspective

Author

Abhilasha Sood, Arpit Mehrotra, Ujjawal Sharma, Diwakar Aggarwal, Tejveer Singh, Moyad Shahwan, Ammar Abdulrahman Jairoun, Isha Rani, Seema Ramniwas, Hardeep Singh Tuli, Vikas Yadav, and Manoj Kumar

Subjects

chrysin, anti-cancer, anti-apoptosis, anti-angiogenesis, anti-metastasis, nanoformulations, Internal medicine, RC31-1245

Abstract

In recent times, there have been notable advancements in comprehending the potential anti-cancer effects of chrysin (CH), a naturally occurring flavonoid compound found abundantly in various plant sources like honey, propolis, and certain fruits and vegetables. This active compound has garnered significant attention due to its promising therapeutic qualities and minimal toxicity. CH’s ability to combat cancer arises from its multifaceted mechanisms of action, including the initiation of apoptosis and the inhibition of proliferation, angiogenesis, metastasis, and cell cycle progression. CH also displays potent antioxidant and anti-inflammatory properties, effectively counteracting the harmful molecules that contribute to DNA damage and the development of cancer. Furthermore, CH has exhibited the potential to sensitize cancer cells to traditional chemotherapy and radiotherapy, amplifying the effectiveness of these treatments while reducing their negative impact on healthy cells. Hence, in this current review, the composition, chemistry, mechanisms of action, safety concerns of CH, along with the feasibility of its nanoformulations. To conclude, the recent investigations into CH’s anti-cancer effects present a compelling glimpse into the potential of this natural compound as a complementary therapeutic element in the array of anti-cancer approaches, providing a safer and more comprehensive method of combating this devastating ailment.

Published

2024

8. Medicinal applications of d-ribose l-cysteine in neuro-endocrinopathy, reproductive dysfunction and cardio-metabolic syndrome: A review of evidence in animal investigations

Author

Oyovwi Mega Obukohwo, Falajiki Yewande Faith, Ohwin Peggy Ejiro, Mok Mishael Onyebuchi, and Ayodeji Folorunsho Ajayi

Subjects

Antioxidant, Neuroendocrine anomalies, Anti-inflammation, d-ribose l-cysteine, Anti-apoptosis, Pharmacy and materia medica, RS1-441, Other systems of medicine, RZ201-999

Abstract

In recent years, the emergence of d-ribose l-cysteine (DLRC) as a potential treatment regimen for neuro-endocrinopathy, reproductive dysfunction and cardio-metabolic syndrome has been gaining attention among medical professionals. This review discusses the safety issues associated with d-ribose l-cysteine and its potential in treating neurological damage, reproductive dysfunction, endocrine diseases, Chondrocyte degeneration, and cardio-metabolic syndrome. Electronic databases were searched for information on d-ribose-l-cysteine and its potential effects on neuroendocrine disorders, using various search terms. In vitro and in vivo studies were examined for any links between d-ribose-l-cysteine and neuroendocrine protection. This review seeks to analyze the available evidence for such a treatment regimen, with particular emphasis on its efficacy, safety profile, and limitations. A review of preclinical studies related to d-ribose l-cysteine and the aforementioned conditions was conducted. The studies demonstrate that the treatment is safe as well as demonstrates promising results in terms of efficacy. This review provides an overview of available evidence for the use of d-ribose l-cysteine as a potential treatment option for neurological damage, reproductive dysfunction, endocrine diseases, Chondrocyte degeneration, and cardio-metabolic syndrome, providing a rationale for further investigation into this therapy. DRLC plays an important role in neuroendocrine and reproductive functions as well as cardiometabolic functions in animal model. Its assessment provides essential information that could guide treatment strategies aimed at improving male reproductive potential. Taken together, these recent advances highlight a future therapeutic intervention in assessing male physiological functions.

Published

2024

9. Autophagy-modulating biomaterials: multifunctional weapons to promote tissue regeneration

Author

Yan Wu, Luxin Li, Zuojun Ning, Changrong Li, Yongkui Yin, Kaiyuan Chen, Lu Li, Fei Xu, and Jie Gao

Subjects

Anti-apoptosis, Anti-infection, Anti-inflammation, Autophagy, Biomaterials, Proliferation and differentiation, Medicine, Cytology, QH573-671

Abstract

Abstract Autophagy is a self-renewal mechanism that maintains homeostasis and can promote tissue regeneration by regulating inflammation, reducing oxidative stress and promoting cell differentiation. The interaction between biomaterials and tissue cells significantly affects biomaterial-tissue integration and tissue regeneration. In recent years, it has been found that biomaterials can affect various processes related to tissue regeneration by regulating autophagy. The utilization of biomaterials in a controlled environment has become a prominent approach for enhancing the tissue regeneration capabilities. This involves the regulation of autophagy in diverse cell types implicated in tissue regeneration, encompassing the modulation of inflammatory responses, oxidative stress, cell differentiation, proliferation, migration, apoptosis, and extracellular matrix formation. In addition, biomaterials possess the potential to serve as carriers for drug delivery, enabling the regulation of autophagy by either activating or inhibiting its processes. This review summarizes the relationship between autophagy and tissue regeneration and discusses the role of biomaterial-based autophagy in tissue regeneration. In addition, recent advanced technologies used to design autophagy-modulating biomaterials are summarized, and rational design of biomaterials for providing controlled autophagy regulation via modification of the chemistry and surface of biomaterials and incorporation of cells and molecules is discussed. A better understanding of biomaterial-based autophagy and tissue regeneration, as well as the underlying molecular mechanisms, may lead to new possibilities for promoting tissue regeneration. Video Abstract

Published

2024

10. Lumbricus Extract Prevents LPS-Induced Inflammatory Activation of BV2 Microglia and Glutamate-Induced Hippocampal HT22 Cell Death by Suppressing MAPK/NF-κB/NLRP3 Signaling and Oxidative Stress

Author

You-Chang Oh, Yun Hee Jeong, Hye Jin Yang, Wei Li, and Jin Yeul Ma

Subjects

Lumbricus, anti-neuroinflammation, neuroprotective effects, antioxidant, anti-apoptosis, Biology (General), QH301-705.5

Abstract

Microglia-induced inflammatory signaling and neuronal oxidative stress are mutually reinforcing processes central to the pathogenesis of neurodegenerative diseases. Recent studies have shown that extracts of dried Pheretima aspergillum (Lumbricus) can inhibit tissue fibrosis, mitochondrial damage, and asthma. However, the effects of Lumbricus extracts on neuroinflammation and neuronal damage have not been previously studied. Therefore, to evaluate the therapeutic potential of Lumbricus extract for neurodegenerative diseases, the current study assessed the extract’s anti-inflammatory and antioxidant activities in BV2 microglial cultures stimulated with lipopolysaccharide (LPS) along with its neuroprotective efficacy in mouse hippocampal HT22 cell cultures treated with excess glutamate. Lumbricus extract dose-dependently inhibited the LPS-induced production of multiple proinflammatory cytokines (tumor necrosis factor-α, interleukin (IL)-6, and IL-1β) and reversed the upregulation of proinflammatory enzymes (inducible nitric oxide synthase and cyclooxygenase-2). Lumbricus also activated the antioxidative nuclear factor erythroid 2-relayed factor 2/heme oxygenase-1 pathway and inhibited LPS-induced activation of the nuclear factor-κB/mitogen-activated protein kinases/NOD-like receptor family pyrin domain containing 3 inflammatory pathway. In addition, Lumbricus extract suppressed the glutamate-induced necrotic and apoptotic death of HT22 cells, effects associated with upregulated expression of antiapoptotic proteins, downregulation of pro-apoptotic proteins, and reduced accumulation of reactive oxygen species. Chromatography revealed that the Lumbricus extract contained uracil, hypoxanthine, uridine, xanthine, adenosine, inosine, and guanosine. Its effects against microglial activation and excitotoxic neuronal death reported herein support the therapeutic potential of Lumbricus for neurodegenerative diseases.

Published

2023

11. Autophagy-modulating biomaterials: multifunctional weapons to promote tissue regeneration.

Author

Wu, Yan, Li, Luxin, Ning, Zuojun, Li, Changrong, Yin, Yongkui, Chen, Kaiyuan, Li, Lu, Xu, Fei, and Gao, Jie

Subjects

*REGENERATION (Biology), *BIOMATERIALS, *HOMEOSTASIS, *SURFACE chemistry, *EXTRACELLULAR matrix, *TISSUES, *CELL differentiation

Abstract

Autophagy is a self-renewal mechanism that maintains homeostasis and can promote tissue regeneration by regulating inflammation, reducing oxidative stress and promoting cell differentiation. The interaction between biomaterials and tissue cells significantly affects biomaterial-tissue integration and tissue regeneration. In recent years, it has been found that biomaterials can affect various processes related to tissue regeneration by regulating autophagy. The utilization of biomaterials in a controlled environment has become a prominent approach for enhancing the tissue regeneration capabilities. This involves the regulation of autophagy in diverse cell types implicated in tissue regeneration, encompassing the modulation of inflammatory responses, oxidative stress, cell differentiation, proliferation, migration, apoptosis, and extracellular matrix formation. In addition, biomaterials possess the potential to serve as carriers for drug delivery, enabling the regulation of autophagy by either activating or inhibiting its processes. This review summarizes the relationship between autophagy and tissue regeneration and discusses the role of biomaterial-based autophagy in tissue regeneration. In addition, recent advanced technologies used to design autophagy-modulating biomaterials are summarized, and rational design of biomaterials for providing controlled autophagy regulation via modification of the chemistry and surface of biomaterials and incorporation of cells and molecules is discussed. A better understanding of biomaterial-based autophagy and tissue regeneration, as well as the underlying molecular mechanisms, may lead to new possibilities for promoting tissue regeneration. CNV4r3KmCJoH5sXtXL-Ceo Video Abstract [ABSTRACT FROM AUTHOR]

Published

2024

12. The Protective Effects of Bushen Daozhuo Granule on Chronic Non-bacterial Prostatitis.

Author

Dalin Sun, Dong Xing, Dandan Wang, Yuanyuan Liu, Bin Cai, Weimin Deng, Qinglin Hu, Wenjun Ma, and Baofang Jin

Subjects

PROSTATITIS, LUTEINIZING hormone releasing hormone, MITOGEN-activated protein kinases, WESTERN immunoblotting, CLINICAL medicine, PROSTATE

Abstract

Background: Chronic non-bacterial prostatitis (CNP), one of the most common chronic diseases in urology, leads to pain in the prostate and dysuria, critically affecting the physical or mental health of patients. However, there are no standard treatment approaches for the treatment of CNP in the clinic. Although the clinical application of Bushen Daozhuo granule (BSDZG) offers hope to CNP patients in China, the mechanisms of BSDZG in treating CNP are still not entirely clear. Hence, we aimed to investigate the novel therapeutic mechanisms of BSDZG on CNP. Methods: In this study, we first assayed the prostate index of rats and then determined the anti-inflammatory and anti-apoptotic effects of BSDZG on CNP in vivo and in vitro by employing ELISA kits and TUNEL staining. Next, we investigated whether the anti-inflammatory and anti-apoptotic mechanisms of BSDZG on prostate protein-induced rats and lipopolysaccharide (LPS) induced RWPE-1 cells were related to the AKT, p38 MAPK, and NF-κB pathways with the help of Western blot. Finally, the influence of BSDZG on the interaction between the p38 MAPK and NF-κB pathway in LPS-induced RWPE-1 cells was explored by adopting dehydrocorydaline (DHC, p38 MAPK activator) with the help of ELISA kits and Western blot. Results: In vivo, BSDZG effectively reduced the prostate index. In vivo and in vitro, BSDZG dramatically declined the level of two pro-inflammatory cytokines, TNF-α and IL-1β, as well as the apoptosis rate. Moreover, in vivo and in vitro, BSDZG memorably upregulated the expression level of p-AKT, and substantially downregulated the expression level of p-p38 MAPK and NF-κB2. The activation of p38 MAPK significantly reversed the moderation effects of BSDZG on the level of TNF-α and IL-1β, as well as the expression level of p-p38 MAPK and NF-κB2 in vitro. Conclusion: To sum up, the in vivo and in vitro therapeutic mechanisms of BSDZG on CNP were reflected as the anti-inflammation and anti-apoptosis that was formed by inhibiting the level of pro-inflammatory cytokines, TNF-α and IL-1β, to regulate the AKT, p38 MAPK, and NF-κB pathways, and the anti-inflammatory effect of BSDZG was realized by suppressing the p38 MAPK pathway to inhibit the downstream NF-κB pathway. [ABSTRACT FROM AUTHOR]

Published

2024

13. Integrated Transcriptomics and Metabolomics Reveal Changes in Cell Homeostasis and Energy Metabolism in Trachinotus ovatus in Response to Acute Hypoxic Stress.

Author

Wang, Qing-Hua, Wu, Ren-Xie, Ji, Jiao-Na, Zhang, Jing, Niu, Su-Fang, Tang, Bao-Gui, Miao, Ben-Ben, and Liang, Zhen-Bang

Subjects

*ENERGY metabolism, *AMINO acid metabolism, *METABOLOMICS, *GLYCOLYSIS, *TRANSCRIPTOMES, *HOMEOSTASIS, *ANAEROBIC metabolism, *AEROBIC metabolism, *CARBOHYDRATE metabolism

Abstract

Trachinotus ovatus is an economically important mariculture fish, and hypoxia has become a critical threat to this hypoxia-sensitive species. However, the molecular adaptation mechanism of T. ovatus liver to hypoxia remains unclear. In this study, we investigated the effects of acute hypoxic stress (1.5 ± 0.1 mg·L−1 for 6 h) and re-oxygenation (5.8 ± 0.3 mg·L−1 for 12 h) in T. ovatus liver at both the transcriptomic and metabolic levels to elucidate hypoxia adaptation mechanism. Integrated transcriptomics and metabolomics analyses identified 36 genes and seven metabolites as key molecules that were highly related to signal transduction, cell growth and death, carbohydrate metabolism, amino acid metabolism, and lipid metabolism, and all played key roles in hypoxia adaptation. Of these, the hub genes FOS and JUN were pivotal hypoxia adaptation biomarkers for regulating cell growth and death. During hypoxia, up-regulation of GADD45B and CDKN1A genes induced cell cycle arrest. Enhancing intrinsic and extrinsic pathways in combination with glutathione metabolism triggered apoptosis; meanwhile, anti-apoptosis mechanism was activated after hypoxia. Expression of genes related to glycolysis, gluconeogenesis, amino acid metabolism, fat mobilization, and fatty acid biosynthesis were up-regulated after acute hypoxic stress, promoting energy supply. After re-oxygenation for 12 h, continuous apoptosis favored cellular function and tissue repair. Shifting from anaerobic metabolism (glycolysis) during hypoxia to aerobic metabolism (fatty acid β-oxidation and TCA cycle) after re-oxygenation was an important energy metabolism adaptation mechanism. Hypoxia 6 h was a critical period for metabolism alteration and cellular homeostasis, and re-oxygenation intervention should be implemented in a timely way. This study thoroughly examined the molecular response mechanism of T. ovatus under acute hypoxic stress, which contributes to the molecular breeding of hypoxia-tolerant cultivars. [ABSTRACT FROM AUTHOR]

Published

2024

14. Oncolytic Activity of Canine Distemper Virus in Human Ductal Breast Carcinoma Cells.

Author

Jhala, Dhwani, Nathani, Neelam, Joshi, Madhvi, Patel, Amrutlal, and Joshi, Chaitanya G.

Subjects

*CANINE distemper virus, *PHOSPHOINOSITIDES, *DUCTAL carcinoma, *TRANSCRIPTION factors, *GENE expression, *ONCOLYTIC virotherapy, *LOBULAR carcinoma, *MYELOID cells

Abstract

Introduction: Oncolytic virotherapy is a novel strategy for cancer treatment in humans and companion animals. Canine distemper virus (CDV) is known to induce apoptosis in tumor cells, thus serving as a potential candidate for oncolytic therapy. However, the mechanism of viral oncolytic activity is less studied and varies depending on the type of cancer and cell lines. Methods: In the present study, the susceptibility of the MCF-7 cell line to CDV infection was assessed using the CDV strain, which was confirmed previously through sequence analysis in the Vero cell line. The impact of CDV infection on cell proliferation and apoptosis was studied by evaluating the expression of four target genes including the myeloid cell leukemia 1 (MCL-1), phosphoinositide-3-kinase regulatory subunit 1 (PIK3R1), transcription factor (SP1), and DNA (cytosine-5)-methyltransferase 3A (DNMT3A). Results: CDV replication in the cells induced cytopathic effect and decreased in the cell proliferation rates compared to the uninfected control. MCL-1, SP1, and PIK3R1 gene expression was down-regulated, while the expression of DNMT3A was up-regulated 3 days post-infection. The expression levels of the target genes suggest that CDV may be inducing the intrinsic apoptotic pathway in the cancer cell line. Conclusion: Overall, the results strongly propose CDV strain as a potential candidate for cancer therapy after detailed studies. [ABSTRACT FROM AUTHOR]

Published

2024

15. Safety and outcomes analysis: transcatheter implantation of autologous angiogenic cell precursors for the treatment of cardiomyopathy

Author

Jane R. Schubart, Amirhossein Zare, Roberto M. Fernandez-de-Castro, Hector Rosario Figueroa, Ina Sarel, Kelly Tuchman, Kaitlyn Esposito, Fraser C. Henderson, and Ernst von Schwarz

Subjects

Autologous hematopoietic stem cell, VEGF, Angiogenin, Cytokine IL-8, NF-kB, Anti-apoptosis, Medicine (General), R5-920, Biochemistry, QD415-436

Abstract

Abstract Background Stem cell transplantation is an emerging therapy for severe cardiomyopathy, proffering stem cell recruitment, anti-apoptosis, and proangiogenic capabilities. Angiogenic cell precursors (ACP-01) are autologous, lineage-specific, cells derived from a multipotent progenitor cell population, with strong potential to effectively engraft, form blood vessels, and support tissue survival and regeneration. Methods This IRB approved outcome analysis reports upon 74 consecutive patients who failed medical management for severe cardiomyopathy, and were selected to undergo transcatheter intramyocardial or intracoronary implantation of ACP-01. Serious adverse events (SAEs) were reported. Cell analysis was conducted for each treatment. The left ventricular ejection fraction (LVEF) was measured by multi-gated acquisition scan (MUGA) or echocardiogram at 4 months ± 1.9 months and 12 months ± 5.5 months. Patients reported quality of life statements at 6 months (± 5.6 months). Results Fifty-four of 74 patients met requirements for inclusion (48 males and five females; age 68.1 ± 11.3 years). The mean treatment cell number of 57 × 106 ACP-01 included 7.7 × 106 CD34 + and 21 × 106 CD31 + cells with 97.6% viability. SAEs included one death (previously unrecognized silent MI), ventricular tachycardia (n = 2) requiring cardioversion, and respiratory infection (n = 2). LVEF in the ischemic subgroup (n = 41) improved by 4.7% ± 9.7 from pre-procedure to the first follow-up (4 months ± 1.9 months) (p

Published

2023

16. Natural Eggshell Membrane Attenuates Chondrocyte Inflammation and Surgically Induced Osteoarthritis in Rats

Author

Jun-Il Kim, Joo-Hee Choi, Min-Soo Seo, Jong-Kyu Kim, Yoon-Seok Chun, Young-Sam Kwon, and Sae-Kwang Ku

Subjects

osteoarthritis, natural eggshell membrane, anti-inflammation, anti-apoptosis, chondrogenesis, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999

Abstract

Osteoarthritis (OA) is a degenerative joint disease that mainly occurs due to the cellular inflammatory response and the destruction of joint cartilage. Natural eggshell membrane (NEM), a byproduct of egg processing, might be a promising knee OA treatment because of its anti-inflammatory properties and resemblance to synovial membrane components. Therefore, we aimed to study the anti-inflammatory effects of NEM in OA, utilizing both in vitro experiments with primary chondrocytes and in vivo studies with a surgical rat model of knee OA. In vitro studies showed that NEM treatment improved cell viability in chondrocytes exposed to interleukin-1α by upregulating chondrogenic genes and inhibiting enzymes that degrade the extracellular matrix (ECM). Furthermore, the anti-inflammatory effects of NEM were observed in chondrocytes induced by lipopolysaccharide. Administering NEM orally for 56 days after OA surgery resulted in enhanced joint swelling reduction and improved mobility in animal models, as well as an increase in bone density and cartilage compressive strength in a concentration-dependent manner. It inhibited inflammatory markers (5-lipoxygenase and prostaglandin E2) and extracellular matrix (ECM)-degrading enzymes (MMP-2 and MMP-9) in both the cartilage and synovium. Simultaneously, there was an upregulation in the expression of chondrogenic genes (Sox9, aggrecan, and Col-2). The histopathological and immunohistochemical analyses demonstrated that NEM’s anti-inflammatory, anti-apoptotic, and chondrogenic properties contributed to the mitigation of joint degradation and synovial inflammation. Therefore, NEM is a potential alternative or functional food agent that addresses both anti-inflammatory and chondroprotective aspects in OA.

Published

2024

17. Protective effects of Quercus salicina blume leaves aqueous extracts against cadmium-induced oxidative stress and cell cytotoxicity in HK-2 cells.

Author

Yun Jeong Kim, Kim Yu Jung, Joo-Won Lee, and Ae-Son Om

Subjects

CYTOTOXINS, OXIDATIVE stress, OAK, APOPTOTIC bodies, REACTIVE oxygen species

Abstract

Background: Quercus salicina Blume is an evergreen plant growing southern parts of Korea and Japan, and has been used for the treatment of dysentery, dermatitis, and hemorrhage from possible effects such as anti-inflammatory, anti-endemic and litholytic activities. We investigated the underlying mechanisms of Quercus salicina Blume leaf extracts (QS) protection against cadmium treatment utilizing human kidney origin HK-2 cells. Methods: To ascertain the functional constituents of the hot water-extracted QS, we conducted analyses to determine the total phenolic and flavonoid contents. Subsequently, the antioxidant activity was assessed using DPPH (2,2-diphenyl-1-picrylhydrazyl) and FRAP (ferric ion reducing antioxidant power) methods. After treating HK-2 cells with QS and Cd, we confirmed the production of reactive oxygen species (ROS) and the expression of related proteins through western blotting. This investigation aimed to assess the antioxidant and anti-apoptotic effects of QS against cadmium-induced oxidative stress. Results: QS exhibited strong antioxidative potential, since the samples exhibited significantly high DPPH and FRAP values. Upon exposure of HK-2 cells to cadmium, inducing oxidative stress, the application of QS effectively reinstated cellular antioxidative functions, leading to an augmentation in cell viability. Notably, the presence of QS attenuated the heightened expression of oxidative marker enzymes induced by cadmium treatment, including SOD (superoxide dismutase) 1, catalase, Nrf-2, and Heme-oxygenase. The apparent disappearance of the apoptotic bodies indicates a potential apoptosis controlling effect of QS. Furthermore, the considerable increase in sub-G1 phase with the addition of cadmium was diminished under QS treatment indicating the ability of QS to reduce the degree of apoptosis related cell cycle phase. The apoptotic quenching effects of QS were accompanied by the downregulation of pro-apoptotic protein Bax and up-regulation of pro-apoptotic Bcl-2. The examination of cleaved caspase-9 and caspase-3 has provided evidence that the pronounced anti-apoptotic activities observed in cadmiumchallenged HK-2 cells significantly diminished in the presence of QS. Conclusions: QS is a highly effective antioxidant and reduces cell cytotoxicity caused by cadmium through antioxidant functions and anti-apoptotic capabilities. [ABSTRACT FROM AUTHOR]

Published

2023

18. Safety and outcomes analysis: transcatheter implantation of autologous angiogenic cell precursors for the treatment of cardiomyopathy.

Author

Schubart, Jane R., Zare, Amirhossein, Fernandez-de-Castro, Roberto M., Figueroa, Hector Rosario, Sarel, Ina, Tuchman, Kelly, Esposito, Kaitlyn, Henderson, Fraser C., and von Schwarz, Ernst

Subjects

*CARDIOMYOPATHIES, *STEM cell transplantation, *DILATED cardiomyopathy, *VENTRICULAR tachycardia, *VENTRICULAR ejection fraction, *ARRHYTHMIA, *PLATELET-rich plasma

Abstract

Background: Stem cell transplantation is an emerging therapy for severe cardiomyopathy, proffering stem cell recruitment, anti-apoptosis, and proangiogenic capabilities. Angiogenic cell precursors (ACP-01) are autologous, lineage-specific, cells derived from a multipotent progenitor cell population, with strong potential to effectively engraft, form blood vessels, and support tissue survival and regeneration. Methods: This IRB approved outcome analysis reports upon 74 consecutive patients who failed medical management for severe cardiomyopathy, and were selected to undergo transcatheter intramyocardial or intracoronary implantation of ACP-01. Serious adverse events (SAEs) were reported. Cell analysis was conducted for each treatment. The left ventricular ejection fraction (LVEF) was measured by multi-gated acquisition scan (MUGA) or echocardiogram at 4 months ± 1.9 months and 12 months ± 5.5 months. Patients reported quality of life statements at 6 months (± 5.6 months). Results: Fifty-four of 74 patients met requirements for inclusion (48 males and five females; age 68.1 ± 11.3 years). The mean treatment cell number of 57 × 106 ACP-01 included 7.7 × 106 CD34 + and 21 × 106 CD31 + cells with 97.6% viability. SAEs included one death (previously unrecognized silent MI), ventricular tachycardia (n = 2) requiring cardioversion, and respiratory infection (n = 2). LVEF in the ischemic subgroup (n = 41) improved by 4.7% ± 9.7 from pre-procedure to the first follow-up (4 months ± 1.9 months) (p < 0.004) and by 7.2% ± 10.9 at final follow-up (n = 25) at average 12 months (p < 0.004). The non-ischemic dilated cardiomyopathy subgroup (n = 8) improved by 7.5% ± 6.0 at the first follow-up (p < 0.017) and by 12.2% ± 6.4 at final follow-up (p < 0.003, n = 6). Overall improvement in LVEF from pre-procedure to post-procedure was significant (Fisher's exact test p < 0.004). LVEF improvement was most marked in the patients with the most severe cardiomyopathy (LVEF < 20%) improving from a mean 14.6% ± 3.4% pre-procedurally to 28.4% ± 8% at final follow-up. Quality of life statements reflected improvement in 33/50 (66%), no change in 14/50 (28%), and worse in 3/50 (6%). Conclusion: Transcatheter implantation of ACP-01 for cardiomyopathy is safe and improves LVEF in the setting of ischemic and non-ischemic cardiomyopathy. The results warrant further investigation in a prospective, blinded, and controlled clinical study. Trial Registration: IRB from Genetic Alliance #APC01-001, approval date July 25, 2022. Cardiomyopathy is common and associated with high mortality. Stem cell transplantation is an emerging therapy. Angiogenic cell precursors (ACP-01) are lineage-specific endothelial progenitors, with strong potential for migration, engraftment, angiogenesis, and support of tissue survival and regeneration. A retrospective outcomes analysis of 53 patients with ischemic and non-ischemic dilated cardiomyopathy undergoing transcatheter implantation of ACP-01 demonstrated improvements in the left ventricular ejection fraction of 7.2% ± 10.9 (p < 0.004) and 12.2% ± 6.4, respectively, at 12 months (± 5) follow-up. Quality of life statements reflected improvement in 33/50 (66%) patients. [ABSTRACT FROM AUTHOR]

Published

2023

19. Protection of β-pancreatic cells from dysfunctionality of insulin using vitexin by apoptosis of INS-1 cells.

Author

Zhang, Li, Shi, Lianfeng, Han, Juanjuan, and Li, Zhenzuo

Subjects

*INSULIN therapy, *BCL-2 proteins, *BAX protein, *CELL death, *WESTERN immunoblotting, *APOPTOSIS

Abstract

This study was performed to explore the possible beneficial effects of vitexin on high glucose (HG)-induced cytotoxicity in pancreatic β-cells. INS-1 pancreatic β-cell line has used this study. HG-induced (33 Mm) exposed INS-1 cell death; the apoptosis INS-1 cells treated vitexin 10, 20, 40, and 80 µg/mL for 24 hours. The anti-apoptosis properties were evaluated by MTT assay, glucose-stimulated insulin secretion assay, biochemical assay, annexin-V-FITC staining and western blot analysis. These findings demonstrate that vitexin treatment improved the HG-exposure, reduced the INS-1 cell viability and significantly enhanced glucose-stimulated insulin secretion in a dose-dependent manner. The antioxidant studies revealed that vitexin treatment significantly decreased lipid peroxidation and reactive oxygen species and increased antioxidant level of INS-1 cell line in 24 hrs. The findings of the study suggested that in the vitexin treatment group, pancreatic apoptosis and Bax protein expression reduced significantly. At the same time, Bcl-2 protein expression increased, and NF-κB protein in HG-induced INS-cells was inhibited. Therefore, our results suggest that vitexin can be successfully used to regulate the expression of Bcl-2 family proteins, reduce lipid peroxidation and to improve the secretion of antioxidants in pancreatic β-cell lines. [ABSTRACT FROM AUTHOR]

Published

2023

20. Anti-Osteoarthritic Effects of Antarctic Krill Oil in Primary Chondrocytes and a Surgical Rat Model of Knee Osteoarthritis.

Author

Ku, Sae-Kwang, Kim, Jong-Kyu, Chun, Yoon-Seok, and Song, Chang-Hyun

Abstract

Osteoarthritis (OA) is characterized by progressive cartilage destruction and synovitis; however, there are no approved disease-modifying OA drugs. Krill oil (KO) has been reported to possess anti-inflammatory properties and alleviate joint pain in knee OA, indicating its potential to target the inflammatory mechanism of OA. Therefore, the anti-OA effects of KO were investigated in primary chondrocytes and a surgical rat model of knee OA. The oral administration of KO at 200 and 100 mg/kg for 8 weeks improved joint swelling and mobility in the animal model and led to increased bone mineral density and compressive strength in the cartilage. The oral KO doses upregulated chondrogenic genes (type 2 collagen, aggrecan, and Sox9), with inhibition of inflammation markers (5-lipoxygenase and prostaglandin E2) and extracellular matrix (ECM)-degrading enzymes (MMP-2 and MMP-9) in the cartilage and synovium. Consistently, KO treatments increased the viability of chondrocytes exposed to interleukin 1α, accompanied by the upregulation of the chondrogenic genes and the inhibition of the ECM-degrading enzymes. Furthermore, KO demonstrated inhibitory effects on lipopolysaccharide-induced chondrocyte inflammation. Histopathological and immunohistochemical analyses revealed that KO improved joint destruction and synovial inflammation, probably due to the anti-inflammatory, anti-apoptotic, and chondrogenic effects. These findings suggest the therapeutic potential of KO for knee OA. [ABSTRACT FROM AUTHOR]

Published

2023

21. Enhancing viability and angiogenic efficacy of mesenchymal stem cells via HSP90α and HSP27 regulation based on ROS stimulation for wound healing.

Author

Seo, Inwoo, Kim, Sung‐Won, Hyun, Jiyu, Kim, Yu‐Jin, Park, Hyun Su, Yoon, Jeong‐Kee, and Bhang, Suk Ho

Subjects

*WOUND healing, *B cells, *MESENCHYMAL stem cells, *HUMAN stem cells, *PROTEIN kinase B, *LIGHT sources, *LIGHT emitting diodes, *SKIN regeneration, *BCL genes

Abstract

Light‐based therapy has been reported as a potential preconditioning strategy to induce intracellular reactive oxygen species (ROS) signaling and improve the angiogenic properties of various types of cells. However, bio‐stimulation mechanisms of light therapy in terms of ROS‐heat shock proteins (HSPs) mediated anti‐apoptotic and angiogenic pathways in human adult stem cells have not been fully delineated yet. Commonly used light sources such as light‐emitting diode (LED) and laser are accompanied by drawbacks, such as phototoxicity, thermal damage, and excessive ROS induction, so the role and clinical implications of light‐induced HSPs need to be investigated using a heat‐independent light source. Here, we introduced organic LED (OLED) at 610 nm wavelength as a new light source to prevent thermal effects from interfering with the expression of HSPs. Our results showed that light therapy using OLED significantly upregulated anti‐apoptotic and angiogenic factors in human bone marrow mesenchymal stem cells (hMSCs) at both gene and protein levels via the activation of HSP90α and HSP27, which were stimulated by ROS. In a mouse wound‐closing model, rapid recovery and improved re‐epithelization were observed in the light‐treated hMSCs transplant group. This study demonstrates that the upregulation of Akt (protein kinase B)‐nuclear factor kappa‐light‐chain‐enhancer of activated B cells (NF‐κB) signaling, caused by HSP90α and HSP27 expression, is the mechanism behind the anti‐apoptotic and angiogenic effects of OLED treatment on stem cells. [ABSTRACT FROM AUTHOR]

Published

2023

22. Melatonin mitigates type 1 diabetes‐aggravated cerebral ischemia‐reperfusion injury through anti‐inflammatory and anti‐apoptotic effects.

Author

Xu, Qian and Cheung, Raymond Tak Fai

Subjects

*REPERFUSION injury, *NF-kappa B, *WEIGHT loss, *MELATONIN, *CEREBRAL ischemia, *ISCHEMIC stroke

Abstract

Introduction: Cerebral ischemia and diabetes mellitus (DM) are common diseases that often coexist and interact with each other. DM doubles the risk of ischemic stroke, and cerebral ischemia causes stress‐induced hyperglycemia. Most experimental stroke studies used healthy animals. Melatonin is neuroprotective against cerebral ischemia–reperfusion injury (CIRI) in non‐DM, normoglycemic animals through anti‐oxidant effect, anti‐inflammation, and anti‐apoptosis. Previous studies have also reported a negative correlation between hyperglycemia and urinary melatonin metabolite. Objectives: The present study investigated the effects of type 1 DM (T1DM) on CIRI in rats and the role of melatonin against CIRI in T1DM animals. Results: Our results revealed that T1DM aggravated CIRI, leading to greater weight loss, increased infarct volume, and worse neurological deficit. T1DM aggravated the post‐CIRI activation of nuclear factor kappa B (NF‐κB) pathway and increase in pro‐apoptotic markers. A single intraperitoneal injection of melatonin at 10 mg/kg given 30 min before ischemia onset attenuated CIRI in T1DM rats, resulting in less weight loss, decreased infarct volume, and milder neurological deficit when compared with the vehicle group. Melatonin treatment achieved anti‐inflammatory and anti‐apoptotic effects with reduced NF‐κB pathway activation, reduced mitochondrial cytochrome C release, decreased calpain‐mediated spectrin breakdown product (SBDP), and decreased caspase‐3‐mediated SBDP. The treatment also led to fewer iNOS+ cells, milder CD‐68+ macrophage/microglia infiltration, decreased TUNEL+ apoptotic cells, and better neuronal survival. Conclusions: T1DM aggravates CIRI. Melatonin treatment is neuroprotective against CIRI in T1DM rats via anti‐inflammatory and anti‐apoptotic effects. [ABSTRACT FROM AUTHOR]

Published

2023

23. Deciphering the gene regulatory network associated with anti-apoptosis in the pancreatic islets of type 2 diabetes mice using computational approaches

Author

Firoz Ahmed

Subjects

type 2 diabetes, pancreatic islets, anti-apoptosis, bioinformatics, gene expression data, gene regulatory network, ingenuity pathway analysis (ipa), Chemical engineering, TP155-156, Biotechnology, TP248.13-248.65, Medical technology, R855-855.5

Abstract

Type 2 diabetes (T2D) is a major global health problem often caused by the inability of pancreatic islets to compensate for the high insulin demand due to apoptosis. However, the complex mechanisms underlying the activation of apoptosis and its counter process, anti-apoptosis, during T2D remain unclear. In this study, we employed bioinformatics and systems biology approaches to understand the anti-apoptosis-associated gene expression and the biological network in the pancreatic islets of T2D mice. First, gene expression data from four peripheral tissues (islets, liver, muscle and adipose) were used to identify differentially expressed genes (DEGs) in T2D compared to non-T2D mouse strains. Our comparative analysis revealed that Gm2036 is upregulated across all four tissues in T2D and is functionally associated with increased cytosolic Ca2+ levels, which may alter the signal transduction pathways controlling metabolic processes. Next, our study focused on islets and performed functional enrichment analysis, which revealed that upregulated genes are significantly associated with sucrose and fructose metabolic processes, as well as negative regulation of neuron apoptosis. Using the Ingenuity Pathway Analysis (IPA) tool of QIAGEN, gene regulatory networks and their biological effects were analyzed, which revealed that glucose is associated with the underlying change in gene expression in the islets of T2D; and an activated gene regulatory network—containing upregulated CCK, ATF3, JUNB, NR4A1, GAST and downregulated DPP4—is possibly inhibiting apoptosis of islets and β-cells in T2D. Our computational-based study has identified a putative regulatory network that may facilitate the survival of pancreatic islets in T2D; however, further validation in a larger sample size is needed. Our results provide valuable insights into the underlying mechanisms of T2D and may offer potential targets for developing more efficacious treatments.

Published

2023

24. Therapies for Cirrhotic Cardiomyopathy: Current Perspectives and Future Possibilities

Author

Hongqun Liu, Daegon Ryu, Sangyoun Hwang, and Samuel S. Lee

Subjects

cirrhotic cardiomyopathy, treatments, beta blockers, antioxidants, anti-apoptosis, anti-inflammation, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

Cirrhotic cardiomyopathy (CCM) is defined as cardiac dysfunction associated with cirrhosis in the absence of pre-existing heart disease. CCM manifests as the enlargement of cardiac chambers, attenuated systolic and diastolic contractile responses to stress stimuli, and repolarization changes. CCM significantly contributes to mortality and morbidity in patients who undergo liver transplantation and contributes to the pathogenesis of hepatorenal syndrome/acute kidney injury. There is currently no specific treatment. The traditional management for non-cirrhotic cardiomyopathies, such as vasodilators or diuretics, is not applicable because an important feature of cirrhosis is decreased systemic vascular resistance; therefore, vasodilators further worsen the peripheral vasodilatation and hypotension. Long-term diuretic use may cause electrolyte imbalances and potentially renal injury. The heart of the cirrhotic patient is insensitive to cardiac glycosides. Therefore, these types of medications are not useful in patients with CCM. Exploring the therapeutic strategies of CCM is of the utmost importance. The present review summarizes the possible treatment of CCM. We detail the current status of non-selective beta-blockers (NSBBs) in the management of cirrhotic patients and discuss the controversies surrounding NSBBs in clinical practice. Other possible therapeutic agents include drugs with antioxidant, anti-inflammatory, and anti-apoptotic functions; such effects may have potential clinical application. These drugs currently are mainly based on animal studies and include statins, taurine, spermidine, galectin inhibitors, albumin, and direct antioxidants. We conclude with speculations on the future research directions in CCM treatment.

Published

2024

25. Cell-free fat extract-loaded microneedles attenuate inflammation-induced apoptosis and mitochondrial damage in tendinopathy

Author

Tianyou Kan, Zhaoyang Ran, Lin Sun, Xu Jiang, Lingli Hou, Yiqi Yang, Zhuoxuan Jia, Wenjie Zhang, Liao Wang, Mengning Yan, and Kai Xie

Subjects

Tendinopathy, Cell-free fat extract, Microneedle, Anti-apoptosis, Tumor necrosis factor, Medicine (General), R5-920, Biology (General), QH301-705.5

Abstract

Existing clinical treatments for tendinopathy mainly focus on reducing pain, whereas inhibiting or reversing disease progression remains challenging. Local therapeutic drugs, such as glucocorticoids, cause adverse effects on the metabolism of tendon tissues and injection-related complications. Therefore, new administration modalities for tendinopathy need to be developed. In this study, we designed a hydrogel-based microneedle (MN) system for the long-term transdermal delivery of our novel biological cell-free fat extract (CEFFE) to treat tendinopathies. We found that CEFFE-loaded MNs (CEFFE-MNs) had good biosafety and inhibited lipopolysaccharide (LPS)-induced apoptosis and matrix degradation in Achilles tendon cells of rats. The Achilles tendons of rats returned to their maximum mechanical strength after applying CEFFE-MNs. The administration of CEFFE-MNs had better anti-apoptosis and tendon repair-promoting effects than CEFEF injections in vivo. Transcriptome sequencing indicated that the anti-apoptosis effect of CEFFE-MNs was highly related to tumor necrosis factor (TNF) signaling. CEFFE-MNs inhibited the expression of TNF, TNF receptor 1, and downstream nuclear factor-kappa B signaling. Additionally, CEFFE-MNs rescued LPS-induced mitochondrial dynamics in tendon cells via the TNF-Drp1 axis. Our study reports a novel CEFFE-MN system that exhibits long-term anti-inflammatory and anti-apoptotic effects, suggesting it as a new treatment route for tendinopathy with broad clinical translation prospects.

Published

2023

26. The anti-apoptosis effect of isovitexin on human keratinocytes by regulating miR-98-5p/Bcl-2/Bcl-xL and MAPKs/NF-κB signaling pathways

Author

Xuechun Lv, Hui Guan, Hui Liu, Rili Hao, Wenyuan Zhang, Feng Li, Jianhui Guo, Yang Jiang, and Dapeng Li

Subjects

Isovitexin, anti-apoptosis, miR-98-5p, MAPKs/NF-κB, Food processing and manufacture, TP368-456

Abstract

Isovitexin is a highly bioactive food-derived flavonoid currently attracting attention for its signal transduction-based antioxidant effects. This study focused on the potential molecular mechanisms by which isovitexin protects HaCaT cells from oxidation-induced apoptosis. It was found that isovitexin significantly reversed oxidative stress-induced apoptosis by reducing ROS level. In addition, isovitexin inhibited apoptosis in a dose-dependent manner by upregulating the expression level of Bcl-xL and Bcl-2 and downregulating the expression level of Bax and caspase-3. It is important to note that the effect of isovitexin may be achieved by targeting miR-98-5p, an upstream target of Bcl-xL and Bcl-2, and overexpression of miR-98-5p counteracted isovitexin-mediated upregulation of antiapoptotic proteins. Isovitexin also inhibited apoptosis by reducing the level of IL-6, IL-1β and TNF-α, which was achieved by regulating MAPKs/NF-κB signaling pathway. Overall, this study confirmed the mechanism of multi-targeted inhibition of apoptosis by targeting miR-98-5p/Bcl-2/Bcl-xL and MAPKs/NF-κB signaling pathway by isovitexin.

Published

2023

27. Editorial: Developing Medicines (Drugs) derived from the Asteraceae—an opportunity in ethnopharmacology, Volume II

Author

Luis Cláudio Nascimento da Silva, Dinkar Sahal, and Sujogya Kumar Panda

Subjects

asteraceae family, drug discovery, phytochemistry, anti-apoptosis, anti-diabetic, anti-inflammatory, Therapeutics. Pharmacology, RM1-950

Published

2023

28. Melatonin mitigates type 1 diabetes‐aggravated cerebral ischemia‐reperfusion injury through anti‐inflammatory and anti‐apoptotic effects

Author

Qian Xu and Raymond Tak Fai Cheung

Subjects

anti‐apoptosis, anti‐inflammatory, diabetes mellitus, ischemia‐reperfusion, melatonin, neuroprotective, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Abstract Introduction Cerebral ischemia and diabetes mellitus (DM) are common diseases that often coexist and interact with each other. DM doubles the risk of ischemic stroke, and cerebral ischemia causes stress‐induced hyperglycemia. Most experimental stroke studies used healthy animals. Melatonin is neuroprotective against cerebral ischemia–reperfusion injury (CIRI) in non‐DM, normoglycemic animals through anti‐oxidant effect, anti‐inflammation, and anti‐apoptosis. Previous studies have also reported a negative correlation between hyperglycemia and urinary melatonin metabolite. Objectives The present study investigated the effects of type 1 DM (T1DM) on CIRI in rats and the role of melatonin against CIRI in T1DM animals. Results Our results revealed that T1DM aggravated CIRI, leading to greater weight loss, increased infarct volume, and worse neurological deficit. T1DM aggravated the post‐CIRI activation of nuclear factor kappa B (NF‐κB) pathway and increase in pro‐apoptotic markers. A single intraperitoneal injection of melatonin at 10 mg/kg given 30 min before ischemia onset attenuated CIRI in T1DM rats, resulting in less weight loss, decreased infarct volume, and milder neurological deficit when compared with the vehicle group. Melatonin treatment achieved anti‐inflammatory and anti‐apoptotic effects with reduced NF‐κB pathway activation, reduced mitochondrial cytochrome C release, decreased calpain‐mediated spectrin breakdown product (SBDP), and decreased caspase‐3‐mediated SBDP. The treatment also led to fewer iNOS+ cells, milder CD‐68+ macrophage/microglia infiltration, decreased TUNEL+ apoptotic cells, and better neuronal survival. Conclusions T1DM aggravates CIRI. Melatonin treatment is neuroprotective against CIRI in T1DM rats via anti‐inflammatory and anti‐apoptotic effects.

Published

2023

29. Enhancing viability and angiogenic efficacy of mesenchymal stem cells via HSP90α and HSP27 regulation based on ROS stimulation for wound healing

Author

Inwoo Seo, Sung‐Won Kim, Jiyu Hyun, Yu‐Jin Kim, Hyun Su Park, Jeong‐Kee Yoon, and Suk Ho Bhang

Subjects

angiogenesis, anti‐apoptosis, heat shock proteins, human mesenchymal stem cells, organic light‐emitting diode (OLED), wound healing, Chemical engineering, TP155-156, Biotechnology, TP248.13-248.65, Therapeutics. Pharmacology, RM1-950

Abstract

Abstract Light‐based therapy has been reported as a potential preconditioning strategy to induce intracellular reactive oxygen species (ROS) signaling and improve the angiogenic properties of various types of cells. However, bio‐stimulation mechanisms of light therapy in terms of ROS‐heat shock proteins (HSPs) mediated anti‐apoptotic and angiogenic pathways in human adult stem cells have not been fully delineated yet. Commonly used light sources such as light‐emitting diode (LED) and laser are accompanied by drawbacks, such as phototoxicity, thermal damage, and excessive ROS induction, so the role and clinical implications of light‐induced HSPs need to be investigated using a heat‐independent light source. Here, we introduced organic LED (OLED) at 610 nm wavelength as a new light source to prevent thermal effects from interfering with the expression of HSPs. Our results showed that light therapy using OLED significantly upregulated anti‐apoptotic and angiogenic factors in human bone marrow mesenchymal stem cells (hMSCs) at both gene and protein levels via the activation of HSP90α and HSP27, which were stimulated by ROS. In a mouse wound‐closing model, rapid recovery and improved re‐epithelization were observed in the light‐treated hMSCs transplant group. This study demonstrates that the upregulation of Akt (protein kinase B)‐nuclear factor kappa‐light‐chain‐enhancer of activated B cells (NF‐κB) signaling, caused by HSP90α and HSP27 expression, is the mechanism behind the anti‐apoptotic and angiogenic effects of OLED treatment on stem cells.

Published

2023

30. Rg3-loaded P407/CS/HA hydrogel inhibits UVB-induced oxidative stress, inflammation and apoptosis in HaCaT cells

Author

Chuanbo Ding, Xiaojuan Peng, Jiali Yang, Kecheng Chen, Xinglong Liu, Yingchun Zhao, Shuai Zhang, Shuwen Sun, Jinping Zhang, Qiteng Ding, Shuang Liu, and Wencong Liu

Subjects

Rg3-loaded hydrogel, UVB, HaCaT cells, Anti-oxidant, Anti-inflammatory, Anti-apoptosis, Therapeutics. Pharmacology, RM1-950

Abstract

UVB radiation can damage human skin, whereas Ginsenoside Rg3, the active ingredient in red ginseng that is processed from ginseng (Panax ginseng C.A. Meyer), could inhibit UVB induced cell damage through anti-oxidation. Meanwhile, P407/CS/HA hydrogel has significant biomedical applications as carriers of drugs. However, the beneficial effects of Rg3-loaded hydrogel (Rg3-Gel) on human HaCaT keratinocytes induced by UVB have rarely been reported. In our study, Rg3 was loaded into hydrogel and the effect of Rg3-Gel against UVB‑induced Hacat cells damages was determined by measuring its ability to alleviate UVB‑induced elevation of oxidative stress, pro-inflammatory and apoptotic response. We found that the treatment with Rg3-Gel inhibited the generation of intracellular ROS and MDA and upregulated the expression of antioxidant enzymes SOD and GSH-Px which were inhibited by UVB exposure. Increased levels of pro-inflammatory cytokines TNF‑α, COX‑2, iNOS and IL‑1β following UVB irradiation were suppressed by the introduction of Rg3-Gel. Additionally, the level of Bcl-2 was decreased and the expression of Bax and Caspase3 were enhanced by Rg3-Gel treatment. In conclusion, Rg3-Gel equipped with the synergistic effect of Rg3 and hydrogel has an effective inhibitory effect on UVB-induced oxidative stress, inflammatory and apoptosis.

Published

2023

31. BCL2L13 protein prevents apoptosis in acute myeloid leukemia cells.

Author

Kim, Ju-Heon, Kim, Hyeng-Soo, and Lee, Sanggyu

Subjects

*ACUTE myeloid leukemia, *MYELOID cells, *BCL-2 proteins, *APOPTOSIS, *CYTOCHROME c

Abstract

The B cell lymphoma-2 (BCL-2) protein group is essential for regulating apoptosis. BCL2L13 harbors all BH domains present in the BCL-2 protein family in addition to a BHNo domain comprising 250 amino acids at its C-terminal. BCL2L13 is highly expressed in AML and is involved in apoptosis. We investigated the possibility of discovering BCL2L13 as a treatment target for acute leukemia. We reduced the expression of BCL2L13 in Mono Mac 6 (MM6) cells using shRNA and overexpressed BCL2L13 in THP-1 cells. MM6 and THP-1 cells were treated with staurosporine (STS) to confirm the role of BCL2L13 in apoptosis. In acute myeloid leukemia (AML) cells, BCL2L13 is involved in inhibiting apoptosis as evidenced by its strikingly augmented expression in these cells. BCL-2 was downregulated and cleaved Caspase 3, and sphingosine-1-phosphate phosphatase 1 (SGPP1) was upregulated when MM6 cells with knockdown BCL2L13 were treated with STS, which significantly increased their apoptosis. Furthermore, mitochondrial membrane potential decreased in MM6 cells in response to the downregulation of BCL2L13. In BCL2L13-depleted MM6 cells, the amount of cytochrome c increased in the cytoplasm. The THP-1 cells overexpressing BCL2L13 and treated with STS showed a significant decrease in the expression of genes related to apoptosis induction, resulting in decreased apoptosis. BCL2L13 inhibits apoptosis in AML, and BCL2L13-specific inhibition might serve as a new strategy for treating this condition. [ABSTRACT FROM AUTHOR]

Published

2023

32. A study of the role of myeloid-derived growth factor on acute lung injury in vitro and In vivo.

Author

Gong, Hui-Wen, Jiang, Shi, Wang, Jianbo, Gong, Qian, Zhang, Chengxin, and Ge, Shenglin

Subjects

*LUNG injuries, *MESENCHYMAL stem cells, *BCL-2 proteins, *BRONCHOALVEOLAR lavage, *CELL transplantation

Abstract

Objectives: Bone marrow-derived mesenchymal stem cells (BMSCs) are considered to have potential clinical application value in the treatment of acute lung injury (ALI). Myeloid-derived growth factor (MYDGF) can promote the proliferation of stem cell. We hypothesized that MYDGF may play a role in reducing lung injury in vitro and in vivo through bone marrow mesenchymal stem cells. Methods: An in vitro model of lipopolysaccharide (LPS)(MLE-12) was established, which was divided into five groups: A: MLE-12; B: MLE-12+LPS; C: MLE-12+LPS + BMSCs; D: MLE-12+LPS + MYDGF; and E: MLE-12+LPS + BMSCs + MYDGF. A Cell Counting Kit-8 was used to detect the OD value. And an ALI model was constructed by inducing mice with a lipopolysaccharide. Forty male Balb/c mice were randomly divided into five groups: A control group; B: model group; C: LPS + BMSCs; D: LPS + MYDGF; E: LPS +BMSCs +MYDGF. Specimens were collected after 24 h. Hematoxylin-eosin (HE)-staining was performed on the tissue sections. The protein concentration in the alveolar lavage fluid was measure by bicinchoninic acid (BCA). The NF-κB, p-Akt, Bax, and Bcl-2 protein expression was detected through Western blotting, and Enzyme linked immunosorbent assay (ELISA) was used to measure the expression of serum interleukin-6, interleukin-10, and TNF-α. Results: Compared with the model group, BMSCs and MYDGF can alleviate the ALI induced by lipopolysaccharide in vitro and vivo (p <.05). Conclusion: We found that the combined treatment effect of MYDGF and BMSCs was better than using MYDGF or BMSCs alone. We speculate that a pretreatment with MYDGF after ALI in mice may improve the survival and growth of transplanted MSCs, thereby improving the curative effect of cell transplantation. [ABSTRACT FROM AUTHOR]

Published

2023

33. Therapeutic effects of a standardized-flavonoid Diospyros kaki L.f. leaf extract on transient focal cerebral ischemia-induced brain injury in mice.

Author

Nguyen, Loan Thanh Thi, Le, Xoan Thi, Pham, Hang Nguyet Thi, Van Nguyen, Tai, Nguyen, Phuong Thi, Van Thi Pham, Anh, Nguyen, Thu Bich Thi, and Matsumoto, Kinzo

Abstract

This study aimed to investigate the neuroprotective and therapeutic effects of Diospyros kaki L.f. leaves (DK) on transient focal cerebral ischemic injury and underlying mechanisms using a middle cerebral artery occlusion (MCAO) model of mice. The animals received the MCAO operation on day 0. The daily administrations of DK (50 and 100 mg/kg, p.o) and edaravone (6 mg/kg, i.v), a reference drug with radical scavenging activity, were started 7 days before (pre-treatment) or immediately after the MCAO operation (post-treatment) and continued during the experimental period. Histochemical, biochemical, and neurological changes and cognitive performance were evaluated. MCAO caused cerebral infarction and neuronal cell loss in the cortex, striatum, and hippocampus in a manner accompanied by spatial cognitive deficits. These neurological and cognitive impairments caused by MCAO were significantly attenuated by pre- and post-ischemic treatments with DK and edaravone, suggesting that DK, like edaravone, has therapeutic potential for cerebral ischemia-induced brain damage. DK and edaravone suppressed MCAO-induced changes in biomarkers for apoptosis (TUNEL-positive cell number and cleaved caspase-3 protein expression) and oxidative stress (glutathione and malondialdehyde contents) in the brain. Interestingly, DK, but not edaravone, mitigated an increase in blood–brain permeability and down-regulation of vascular endothelial growth factor protein expression caused by MCAO. Although the exact chemical constituents implicated in the effects of DK remain to be clarified, the present results indicate that DK exerts neuroprotective and therapeutic activity against transient focal cerebral ischemia-induced injury probably by suppressing oxidative stress, apoptotic process, and mechanisms impairing blood–brain barrier integrity in the brain. [ABSTRACT FROM AUTHOR]

Published

2023

34. Dalbergia odorifera Essential oil protects against myocardial ischemia through upregulating nrf2 and inhibiting caspase signaling pathways in isoproterenol-induced rats

Author

Can-Hong Wang, Bao Gong, Hui Meng, Yu-Lan Wu, Xiang-Sheng Zhao, and Jian-He Wei

Subjects

anti-apoptosis, anti-oxidation, dalbergia odorifera essential oil, isoproterenol, myocardial ischemia, Medicine (General), R5-920

Abstract

Objective: Dalbergia odorifera has long been used as a Chinese herbal medicine for the treatment of cardiovascular and cerebrovascular diseases. This study aimed to determine the potential myocardial protective effect and possible mechanism of action of D. odorifera essential oil (DOEO). Materials and Methods: The essential oil of D. odorifera was extracted by hydrodistillation. The cardioprotective effects of DOEO were examined by histopathological observation, myocardial enzyme detection, peroxidation, anti-oxidant level detection, and related protein expression. The compounds in the blood were identified by gas chromatography–mass spectrometry. Results: These results showed that DOEO had significant myocardial cell protection, with IC50 values ranging from 17.64 to 24.78 μg/mL in vitro. Compared to the myocardial ischemia group, the DOEO pretreatment groups had lower levels of myocardial injury, creatinine kinase, lactate dehydrogenase, alanine transaminase, aspartate transaminase, hydrogen peroxide, and nitric oxide, and higher levels of glutathione and superoxide dismutase. In addition, DOEO pretreatment significantly increased Na+-K+-ATPase and Ca2+-ATPase levels. Moreover, immunohistochemical experiments showed that DOEO remarkably increased the protein levels of NF-E2-related nuclear factor 2 (Nrf2) and heme oxygenase-1 (HO-1) and reduced the expression of apoptotic caspases, including caspase 3 and caspase 9. The main components of the blood were transnerolidol and nerolidol oxide. Overall, the study showed that DOEO displayed myocardial protection by upregulating the NF-E2-related nuclear factor- antioxidant response element (Nrf2-ARE) and caspase pathways. DOEO has a therapeutic effect on MI by inhibiting the oxidant and apoptotic effects. Conclusions: D. odorifera may be a potential candidate drug for treating myocardial ischemic injury.

Published

2023

35. Antitoxic principles from Moringa oleifera (Mo11) and Musa sapientum (Ms06) ameliorated cadmium chloride-induced renal hyperplasia and apoptosis through Ki67/P53-mediated pathway in rats

Author

Adelaja Akinlolu, Mubarak Ameen, Gabriel Ebito, Nnaemeka Asogwa, Raheem Akindele, Bamidele Fagbohunka, Zainab Arowolo, and Taofeeq Garuba

Subjects

anti-apoptosis, anti-proliferation, cadmium, moringa oleifera, musa sapientum, renotoxicity, Medicine, Nursing, RT1-120

Abstract

Background: Cadmium (Cd) is an established carcinogen. Cd-induced renotoxicity resulted in oxidative stress, loss of excretory kidney functions, and apoptosis of murine kidney cells. Objectives: This study evaluated renoprotective potentials of MO11 (isolated from Moringa oleifera leaves) and MS06 (isolated from Musa sapientum suckers) against Cd chloride (CdCl2)-induced renotoxicity, renal hyperplasia, and apoptosis in rats. Materials and Methods: Twenty-four adult male Wistar rats (average weight of 155 g) were randomly divided into seven groups (n = 4). Group 1 received physiological saline. Groups 2–4 and 6 received single intraperitoneal (i.p) administration of 1.5 mg/kg body weight of CdCl2 (i.p) (Day 1). Groups 3–4 and 6 were posttreated with 15 mg/kg body weight of MO11, 15 mg/kg body weight of MO11 +7 mg/kg body weight of MS06, and 3.35 mg/kg body weight of doxorubicin, respectively (days: 1–17). Group 5 received only olive oil dose (vehicle), respectively (days: 1–17). Kidney histopathology (hematoxylin and eosin technique) and enzyme-linked immunosorbent assay concentrations of biomarkers of proliferation (Ki67) and apoptosis (p53) in kidney homogenates of rats of Groups 1–6 were evaluated. Results: Histopathological analyses showed normal kidney histology in the rats of Groups 1–6. Posttreatments of CdCl2-induced renotoxicity with MO11, MO11+MS06, and doxorubicin resulted in downregulations of Ki67 and p53 in Groups 3, 4, and 6 as compared with Group 2. Conclusion: MO11 and MS06 possess renoprotective, anti-proliferation, and anti-apoptosis potentials.

Published

2023

36. Protective Effect of Vitamin D against Hepatic Molecular Apoptosis Caused by a High-Fat Diet in Rats

Author

Huda F. Alshaibi, Sherin Bakhashab, Asma Almuhammadi, Yusuf S. Althobaiti, Mohammed A. Baghdadi, and Khadeejah Alsolami

Subjects

high-fat diet, vitamin D, hepatic apoptosis, inflammatory cytokine, anti-apoptosis, Biology (General), QH301-705.5

Abstract

The protective effects of vitamin D (VitD) in different diseases were studied. The liver is of great interest, especially with the presence of VitD receptors. A high-fat diet (HFD) is associated with many diseases, including liver injury. Consumption of saturated fatty acids triggers hepatic apoptosis and is associated with increased inflammation. We aimed in this study to investigate the protective effects of VitD on hepatic molecular apoptotic changes in response to an HFD in rats. Forty male Wistar albino rats were used and divided into four groups: control, HFD, control + VitD, and VitD-supplemented HFD (HFD + VitD) groups. After six months, the rats were sacrificed, and the livers were removed. RNA was extracted from liver tissues and used for the quantitative real-time RT-PCR of different genes: B-cell lymphoma/leukemia-2 (BCL2), BCL-2-associated X protein (Bax), Fas cell surface death receptor (FAS), FAS ligand (FASL), and tumor necrosis factor α (TNF-α). The results showed that an HFD increased the expression of the pro-apoptotic genes Bax, FAS, and FASL, and reduced the expression of the anti-apoptotic gene BCL2. Interestingly, a VitD-supplemented HFD significantly increased the BCL2 expression and decreased the expression of all pro-apoptotic genes and TNFα. In conclusion, VitD has a protective role against hepatic molecular apoptotic changes in response to an HFD.

Published

2023

37. Ameliorative impacts of polymeric and metallic nanoparticles on cisplatin-induced nephrotoxicity: a 2011–2022 review

Author

Maryam Davoudi, Yasaman Jadidi, Kiana Moayedi, Vida Farrokhi, and Reza Afrisham

Subjects

Cisplatin, Nephrotoxicity, Metallic nanoparticles, Polymers, Antioxidant, Anti-apoptosis, Biotechnology, TP248.13-248.65, Medical technology, R855-855.5

Abstract

Abstract Cisplatin (CDDP) is a well-known platinum-based drug used in the treatment of various malignancies. However, the widespread side effects that this drug leaves on normal tissues make its use limited. Since cisplatin is mainly eliminated from the kidneys, CDDP-induced nephrotoxicity is the most significant dose-limiting complication attributed to cisplatin, which often leads to dose withdrawal. Considering the high efficiency of cisplatin in chemotherapy, finding renoprotective drug delivery systems for this drug is a necessity. In this regard, we can take advantages of different nanoparticle-based approaches to deliver cisplatin into tumors either using passive targeting or using specific receptors. In an effort to find more effective cisplatin-based nano-drugs with less nephrotoxic effect, the current 2011–2022 review study was conducted to investigate some of the nanotechnology-based methods that have successfully been able to mitigate CDDP-induced nephrotoxicity. Accordingly, although cisplatin can cause renal failures through inducing mitochondria dysfunction, oxidative stress, lipid peroxidation and endoplasmic reticulum stress, some CDDP-based nano-carriers have been able to reverse a wide range of these advert effects. Based on the obtained results, it was found that the use of different metallic and polymeric nanoparticles can help renal cells to strengthen their antioxidant systems and stay alive through reducing CDDP-induced ROS generation, inhibiting apoptosis-related pathways and maintaining the integrity of the mitochondrial membrane. For example, nanocurcumin could inhibit oxidative stress and acting as a ROS scavenger. CONPs could reduce lipid peroxidation and pro-inflammatory cytokines. CDDP-loaded silver nanoparticles (AgNPs) could inhibit mitochondria-mediated apoptosis. In addition, tea polyphenol-functionalized SeNPs (Se@TE) NPs could mitigate the increased level of dephosphorylated AKT, phosphorylated p38 MAPK and phosphorylated c-Jun N-terminal kinase (JNK) induced by cisplatin. Moreover, exosomes mitigated cisplatin-induced renal damage through inhibiting Bcl2 and increasing Bim, Bid, Bax, cleaved caspase-9, and cleaved caspase-3. Hence, nanoparticle-based techniques are promising drug delivery systems for cisplatin so that some of them, such as lipoplatins and nanocurcumins, have even reached phases 1–3 trials.

Published

2022

38. Mast Cell Tryptase Promotes Airway Remodeling by Inducing Anti-Apoptotic and Cell Growth Properties in Human Alveolar and Bronchial Epithelial Cells.

Author

Berlin, Frida, Mogren, Sofia, Ly, Camilla, Ramu, Sangeetha, Hvidtfeldt, Morten, Uller, Lena, Porsbjerg, Celeste, and Andersson, Cecilia K.

Subjects

*EPITHELIAL cells, *TRYPTASE, *CELL growth, *MAST cells, *HUMAN growth

Abstract

Bronchial and alveolar remodeling and impaired epithelial function are characteristics of chronic respiratory diseases. In these patients, an increased number of mast cells (MCs) positive for serine proteases, tryptase and chymase, infiltrate the epithelium and alveolar parenchyma. However, little is known regarding the implication of intraepithelial MCs on the local environment, such as epithelial cell function and properties. In this study, we investigated whether MC tryptase is involved in bronchial and alveolar remodeling and the mechanisms of regulation during inflammation. Using novel holographic live cell imaging, we found that MC tryptase enhanced human bronchial and alveolar epithelial cell growth and shortened the cell division intervals. The elevated cell growth induced by tryptase remained in a pro-inflammatory state. Tryptase also increased the expression of the anti-apoptotic protein BIRC3, as well as growth factor release in epithelial cells. Thus, our data imply that the intraepithelial and alveolar MC release of tryptase may play a critical role in disturbing bronchial epithelial and alveolar homeostasis by altering cell growth–death regulation. [ABSTRACT FROM AUTHOR]

Published

2023

39. Ginsentide TP1 Protects Hypoxia-Induced Dysfunction and ER Stress-Linked Apoptosis.

Author

Dutta, Bamaprasad, Loo, Shining, Kam, Antony, Sze, Siu Kwan, and Tam, James P.

Subjects

*CELL death, *CELL adhesion, *CARDIOVASCULAR diseases, *APOPTOSIS, *REACTIVE oxygen species, *ENDOTHELIAL cells, *ENDOTHELIUM diseases

Abstract

Hypoxia-induced vascular endothelial dysfunction (VED) is a significant contributor to several severe human diseases, including heart disease, stroke, dementia, and cancer. However, current treatment options for VED are limited due to the lack of understanding of the underlying disease mechanisms and therapeutic leads. We recently discovered a heat-stable microprotein in ginseng, called ginsentide TP1, that has been shown to reduce vascular dysfunction in cardiovascular disease models. In this study, we use a combination of functional assays and quantitative pulsed SILAC proteomics to identify new proteins synthesized in hypoxia and to show that ginsentide TP1 provides protection for human endothelial cells against hypoxia and ER stress. Consistent with the reported findings, we also found that hypoxia activates various pathways related to endothelium activation and monocyte adhesion, which in turn, impairs nitric oxide (NO) synthase activity, reduces the bioavailability of NO, and increases the production of reactive oxygen species that contribute to VED. Additionally, hypoxia triggers endoplasmic reticulum stress and initiates apoptotic signaling pathways associated with cardiovascular pathology. Treatment with ginsentide TP1 reduced surface adhesion molecule expression, prevented activation of the endothelium and leukocyte adhesion, restored protein hemostasis, and reduced ER stress to protect against hypoxia-induced cell death. Ginsentide TP1 also restored NO signaling and bioavailability, reduced oxidative stress, and protected endothelial cells from endothelium dysfunction. In conclusion, this study shows that the molecular pathogenesis of VED induced by hypoxia can be mitigated by treatment with ginsentide TP1, which could be one of the key bioactive compounds responsible for the "cure-all" effect of ginseng. This research may lead to the development of new therapies for cardiovascular disorders. [ABSTRACT FROM AUTHOR]

Published

2023

40. 地西泮保护黑色素细胞氧化损伤的作用及机制.

Author

张锡梅, 瞿琳, 孟朵, 邹坤, and 吕金鹏

Subjects

*BAX protein, *BCL-2 proteins, *OXIDATIVE stress, *DIAZEPAM, *HYDROGEN peroxide, *VITALITY

Abstract

The oxidative stress model of mouse melanocytes B16F10 was established and the protective effect and mechanism of diazepam on oxidative damage of B16F10 cells were studied. B16F10 cells in good growth state were selected to determine the concentration of hydrogen peroxide and the appropriate dose range of diazepam by MTT method. The protective effect of diazepam on oxidative damage of B16F10 cells was observed by fluorescence detection. Western blot was used to further explore the upstream pathway mechanism of diazepam's protective effect. The experimental results showed that diazepam can significantly reverse cellular oxidative damage, restore cell vitality, increase the expression of anti apoptotic protein Bcl-2 under stress, reduce the level of pro apoptotic protein Bax, and ultimately protect B16F10 cells under oxidative stress. [ABSTRACT FROM AUTHOR]

Published

2023

41. Pharmacological Activity of Flavonoid Quercetin and Its Therapeutic Potential in Testicular Injury.

Author

Zhang, Xiaohui, Tang, Yufeng, Lu, Guangping, and Gu, Junlian

Abstract

Quercetin is a natural flavonoid widely found in natural fruits and vegetables. Recent studies have shown that quercetin mediates multiple beneficial effects in a variety of organ damage and diseases, and is considered a healthcare supplement with health-promoting potential. Male infertility is a major health concern, and testicular damage from multiple causes is an important etiology. Previous studies have shown that quercetin has a protective effect on reproductive function. This may be related to the antioxidant, anti-inflammatory, and anti-apoptotic biological activities of quercetin. Therefore, this paper reviews the mechanisms by which quercetin exerts its pharmacological activity and its role in testicular damage induced by various etiologies. In addition, this paper compiles the application of quercetin in clinical trials, demonstrating its practical effects in regulating blood pressure and inhibiting cellular senescence in human patients. However, more in-depth experimental studies and clinical trials are needed to confirm the true value of quercetin for the prevention and protection against testicular injury. [ABSTRACT FROM AUTHOR]

Published

2023

42. Diverse Possibilities of Si-Based Agent, a Unique New Antioxidant.

Author

Koyama, Yoshihisa, Kobayashi, Yuki, Kobayashi, Hikaru, and Shimada, Shoichi

Subjects

ANTIOXIDANTS, INTERSTITIAL hydrogen generation, OXIDATIVE stress

Abstract

Antioxidant therapy is an effective approach for treating diseases in which oxidative stress is involved in the onset of symptoms. This approach aims to rapidly replenish the antioxidant substances in the body when they are depleted due to excess oxidative stress. Importantly, a supplemented antioxidant must specifically eliminate harmful reactive oxygen species (ROS) without reacting with physiologically beneficial ROS, which are important to the body. In this regard, typically used antioxidant therapies can be effective, but may cause adverse effects due to their lack of specificity. We believe that Si-based agents are epoch-making drugs that can overcome these problems associated with current antioxidative therapy. These agents alleviate the symptoms of oxidative-stress-associated diseases by generating large amounts of the antioxidant hydrogen in the body. Moreover, Si-based agents are expected to be highly effective therapeutic drug candidates because they have anti-inflammatory, anti-apoptotic, and antioxidant effects. In this review, we discuss Si-based agents and their potential future applications in antioxidant therapy. There have been several reports of hydrogen generation from silicon nanoparticles, but unfortunately, none have been approved as pharmaceutical agents. Therefore, we believe that our research into medical applications using Si-based agents is a breakthrough in this research field. The knowledge obtained thus far from animal models of pathology may greatly contribute to the improvement of existing treatment methods and the development of new treatment methods. We hope that this review will further revitalize the research field of antioxidants and lead to the commercialization of Si-based agents. [ABSTRACT FROM AUTHOR]

Published

2023

43. Essential Protein PHB2 and Its Regulatory Mechanisms in Cancer.

Author

Qi, Amanda, Lamont, Lillie, Liu, Evelyn, Murray, Sarina D., Meng, Xiangbing, and Yang, Shujie

Subjects

*MITOCHONDRIAL membranes, *CANCER genes, *CANCER invasiveness, *CELL division, *METABOLIC disorders, *PROTEINS, *NUCLEAR receptors (Biochemistry)

Abstract

Prohibitins (PHBs) are a highly conserved class of proteins and have an essential role in transcription, epigenetic regulation, nuclear signaling, mitochondrial structural integrity, cell division, and cellular membrane metabolism. Prohibitins form a heterodimeric complex, consisting of two proteins, prohibitin 1 (PHB1) and prohibitin 2 (PHB2). They have been discovered to have crucial roles in regulating cancer and other metabolic diseases, functioning both together and independently. As there have been many previously published reviews on PHB1, this review focuses on the lesser studied prohibitin, PHB2. The role of PHB2 in cancer is controversial. In most human cancers, overexpressed PHB2 enhances tumor progression, while in some cancers, it suppresses tumor progression. In this review, we focus on (1) the history, family, and structure of prohibitins, (2) the essential location-dependent functions of PHB2, (3) dysfunction in cancer, and (4) the promising modulators to target PHB2. At the end, we discuss future directions and the clinical significance of this common essential gene in cancer. [ABSTRACT FROM AUTHOR]

Published

2023

44. Deciphering the gene regulatory network associated with anti-apoptosis in the pancreatic islets of type 2 diabetes mice using computational approaches.

Author

Ahmed, Firoz

Subjects

*ISLANDS of Langerhans, *GENE regulatory networks, *TYPE 2 diabetes, *BIOLOGICAL networks, *SYSTEMS biology, *GENE expression, *MICE

Abstract

Type 2 diabetes (T2D) is a major global health problem often caused by the inability of pancreatic islets to compensate for the high insulin demand due to apoptosis. However, the complex mechanisms underlying the activation of apoptosis and its counter process, anti-apoptosis, during T2D remain unclear. In this study, we employed bioinformatics and systems biology approaches to understand the anti-apoptosis-associated gene expression and the biological network in the pancreatic islets of T2D mice. First, gene expression data from four peripheral tissues (islets, liver, muscle and adipose) were used to identify differentially expressed genes (DEGs) in T2D compared to non-T2D mouse strains. Our comparative analysis revealed that Gm2036 is upregulated across all four tissues in T2D and is functionally associated with increased cytosolic Ca2+ levels, which may alter the signal transduction pathways controlling metabolic processes. Next, our study focused on islets and performed functional enrichment analysis, which revealed that upregulated genes are significantly associated with sucrose and fructose metabolic processes, as well as negative regulation of neuron apoptosis. Using the Ingenuity Pathway Analysis (IPA) tool of QIAGEN, gene regulatory networks and their biological effects were analyzed, which revealed that glucose is associated with the underlying change in gene expression in the islets of T2D; and an activated gene regulatory network--containing upregulated CCK, ATF3, JUNB, NR4A1, GAST and downregulated DPP4--is possibly inhibiting apoptosis of islets and β-cells in T2D. Our computational-based study has identified a putative regulatory network that may facilitate the survival of pancreatic islets in T2D; however, further validation in a larger sample size is needed. Our results provide valuable insights into the underlying mechanisms of T2D and may offer potential targets for developing more efficacious treatments. [ABSTRACT FROM AUTHOR]

Published

2023

45. Antitoxic Principles from Moringa oleifera (Mo11) and Musa sapientum (Ms06) Ameliorated Cadmium Chloride-Induced Renal Hyperplasia and Apoptosis through Ki67/P53-Mediated Pathway in Rats.

Author

Akinlolu, Adelaja, Ameen, Mubarak, Ebito, Gabriel, Asogwa, Nnaemeka, Akindele, Raheem, Fagbohunka, Bamidele, Arowolo, Zainab, and Garuba, Taofeeq

Subjects

*BANANAS, *MORINGA oleifera, *ENZYME-linked immunosorbent assay, *CADMIUM, *HYPERPLASIA

Abstract

Background: Cadmium (Cd) is an established carcinogen. Cd-induced renotoxicity resulted in oxidative stress, loss of excretory kidney functions, and apoptosis of murine kidney cells. Objectives: This study evaluated renoprotective potentials of MO11 (isolated from Moringa oleifera leaves) and MS06 (isolated from Musa sapientum suckers) against Cd chloride (CdCl2)-induced renotoxicity, renal hyperplasia, and apoptosis in rats. Materials and Methods: Twenty-four adult male Wistar rats (average weight of 155 g) were randomly divided into seven groups (n = 4). Group 1 received physiological saline. Groups 2-4 and 6 received single intraperitoneal (i.p) administration of 1.5 mg/kg body weight of CdCl2 (i.p) (Day 1). Groups 3-4 and 6 were posttreated with 15 mg/kg body weight of MO11, 15 mg/kg body weight of MO11 +7 mg/kg body weight of MS06, and 3.35 mg/kg body weight of doxorubicin, respectively (days: 1-17). Group 5 received only olive oil dose (vehicle), respectively (days: 1-17). Kidney histopathology (hematoxylin and eosin technique) and enzyme-linked immunosorbent assay concentrations of biomarkers of proliferation (Ki67) and apoptosis (p53) in kidney homogenates of rats of Groups 1-6 were evaluated. Results: Histopathological analyses showed normal kidney histology in the rats of Groups 1-6. Posttreatments of CdCl2 -induced renotoxicity with MO11, MO11+MS06, and doxorubicin resulted in downregulations of Ki67 and p53 in Groups 3, 4, and 6 as compared with Group 2. Conclusion: MO11 and MS06 possess renoprotective, anti-proliferation, and anti-apoptosis potentials. [ABSTRACT FROM AUTHOR]

Published

2023

46. Photoprotective Effects of Dendrobium nobile Lindl. Polysaccharides against UVB-Induced Oxidative Stress and Apoptosis in HaCaT Cells.

Author

Long, Yunluan, Wang, Wuji, Zhang, Yanyan, Du, Fanpan, Zhang, Shiqian, Li, Zheng, Deng, Jiang, and Li, Jingjie

Subjects

*MITOGENS, *POLYSACCHARIDES, *MITOGEN-activated protein kinases, *OXIDATIVE stress, *DENDROBIUM, *P53 protein, *CELLULAR control mechanisms, *CATALASE

Abstract

Acute ultraviolet (UV)-B radiation is the major external factor causing photodamage. In this study, we aimed to determine the effects of Dendrobium nobile Lindl. polysaccharides (DNPs) on photodamage in HaCaT keratinocytes after UVB irradiation and the underlying mechanisms. We found that DNPs significantly attenuated the decline in the viability and proliferation of HaCaT cells after UVB irradiation. Moreover, DNPs scavenged reactive oxygen species (ROS), improved the activities of endogenous antioxidant enzymes, including superoxide dismutase, catalase, and glutathione peroxidase, and reduced the levels of malondialdehyde, while partially attenuating cell cycle arrest, suggesting their antioxidant and anti-apoptotic properties. The mitogen-activated protein kinase (MAPK) pathway was found to be important for the attenuation of UVB-induced photodamage in the HaCaT cells. Furthermore, DNPs exerted cytoprotective effects by downregulating UVB-induced ROS-mediated phosphorylation of MAPKs, including p38, c-Jun N-terminal kinase, and extracellular signal-regulated kinase, and by inhibiting p53 expression as well as the apoptotic cascade response. Therefore, DNPs ameliorated UVB-induced oxidative damage and apoptosis in HaCaT cells via the regulation of MAPKs. Our findings thus highlight the Dendrobium nobile Lindl polysaccharides as promising therapeutic candidates for UVB-induced photodamage. [ABSTRACT FROM AUTHOR]

Published

2023

47. CXCR4 enhances the inhibitory effects of bone mesenchymal stem cells on lung cell apoptosis in a rat model of smoking-induced COPD.

Author

Gao, Jiansheng, Liang, Yuli, Chen, Jiabao, Shen, Huihui, and Liu, Hua

Subjects

MESENCHYMAL stem cells, CXCR4 receptors, CHRONIC obstructive pulmonary disease, ANIMAL disease models, LUNGS

Abstract

Chronic obstructive pulmonary disease is the 3rd leading cause of death worldwide, and the available treatments are unsatisfactory, resulting in a major economic burden. As cellular therapy is commonly used for lung disease, we investigated a treatment with CXCR4-overexpressing BMSCs in a COPD model. We extracted and purified Bone marrow mesenchymal stem cells (BMSCs) from SD rats. COPD apoptosis model was established by cigarette smoke exposure. BMSCs (1 × 106 cells per injection)were transplanted in vivo twice a month during model establishment, and alveolar rupture in the lung was assessed. Lung cell apoptosis was assessed by terminal deoxynucleotidyl transferase biotin-dUTP nick end labeling (TUNEL) analysis, and the concentrations of apoptotic proteins in the lungs were detected by Western blotting. We successfully isolated BMSCs and established CXCR4-overexpressing BMSCs. qRT‒PCR and Western blotting detection both reveal that CXCR4 mRNA level and protein both significantly higher expression in CXCR4-BMSCs than the pBABE-BMSCs. Continuous cigarette smoke exposure caused alveolar septal rupture: In the model group, the alveolar mean linear intercept in the first month was significantly lower than that in the third month (p < 0.05). In the third month, the alveolar mean linear intercept values of the control and CXCR4-BMSC groups were lower than those of the model group (control group p < 0.01, CXCR4-BMSC group p < 0.05), and TUNEL staining revealed that the apoptosis rates of the control and CXCR4-BMSC groups were significantly lower than those of the model group (p < 0.01). Furthermore, the levels of the apoptotic proteins cleaved caspase-8, cleaved caspase-3 and cleaved PARP-1 were higher in the model group than in the control group (p < 0.05) and significantly lower in the CXCR4-BMSC group than in the model group (p < 0.05). The transplantation of CXCR4-overexpressing BMSCs during COPD model generation significantly inhibited apoptosis via the extrinsic apoptosis pathway. CXCR4 enhances the inhibitory effects of bone mesenchymal stem cells on lung cell apoptosis in a rat model of smoking-induced COPD [ABSTRACT FROM AUTHOR]

Published

2023

48. 3-D tissue-engineered epidermis against human primary keratinocytes apoptosis via relieving mitochondrial oxidative stress in wound healing.

Author

He, Shan, Wu, Han, Huang, Junqun, Li, Qingyan, Huang, Zijie, Wen, Huangding, and Li, Zhiqing

Subjects

*WOUND healing, *SKIN regeneration, *OXIDATIVE stress, *KERATINOCYTES, *EPIDERMIS, *CELL physiology, *TISSUE remodeling

Abstract

The tissue-engineered epidermal (TEE), composed of biocompatible vectors and autogenous functional cells, is a novel strategy to solve the problem of shortage of donor skin sources. The human primary keratinocyte (HPK), the major skin components, are self-evident vital in wound healing and was considered as one of the preferred seed cells for TEEs. Since the process of separating HPKs from the skin triggers a stress state of the cells, achieving its rapid adhesion and proliferation on biomaterials remains challenging. The key to the clinical application is to ensure the normal function of cells while improving the proliferation ability in vitro, and to complete the complex mesenchymal epithelialization to achieve tissue remodeling after vivo implantation. Herein, in order to aid HPKs adhesion and proliferation in vitro and promoting wound healing, we developed a three dimensional collagen scaffold with Y-27632 sustainedly released from the nanoplatform, hollow mesoporous organosilica nanoparticles (HMON). The results showed that the porous structure within the TEE supports the implanted HPKs expanding in a three-dimensional mode to jointly construct the tissue-engineered epidermis in vitro and inhibited the mitochondria-mediated cell apoptosis. It was confirmed that the TEEs with suitable degradation rate could maintain drug release after implantation and could accelerate vascularization of wound base and further revealed the involvement of mesenchymal transformation of transplanted HPKs during skin regeneration in a nude mouse model with full-thickness skin resection. In conclusion, our study highlights the great potential of constructing TEE using a nanoparticle platform for the treatment of large-area skin defects. [ABSTRACT FROM AUTHOR]

Published

2023

49. Curcumin-loaded human endometrial stem cells derived exosomes as an effective carrier to suppress alpha-synuclein aggregates in 6OHDA-induced Parkinson's disease mouse model.

Author

Mobahat, Mahsa, Sadroddiny, Esmaeil, Nooshabadi, Vajihe Taghdiri, Ebrahimi-Barough, Somayeh, Goodarzi, Arash, Malekshahi, Ziba Veisi, and Ai, Jafar

Abstract

Parkinson disease (PD) is considered as one of the most worldwide neurodegenerative disorders. The major reasons associated to neurodegeneration process of PD pathogenesis are oxidative stress. Many studies reported that natural antioxidant molecules, especially, curcumin can suppress inflammatory pathways and preserve dopaminergic neurons damage in PD. Further, the poor pharmacokinetics, instability of chemical structure because of fast hydrolytic degradation at physiologic condition and especially, the presence of the blood brain barrier (BBB) has regarded as a considerable restriction factor for transfer of neurotherapeutic molecules to the brain tissue. The present research aims to the fabrication of nanoformulated curcumin loaded human endometrial stem cells derived exosomes (hEnSCs EXOs-Cur) to study on enhancing curcumin penetration to the brain across BBB and to improve anti- Parkinsonism effects of curcumin against neural death and alpha-synuclein aggregation. hEnSCs EXOs-Cur characterization results demonstrated the accurate size and morphology of formulated curcumin loaded exosomes with a proper stability and sustained release profile. In vivo studies including behavioral, Immunohistochemical and molecular evaluations displayed that novel formulation of hEnSCs EXO-Cur is able to cross BBB, enhance motor uncoordinated movements, suppress the aggregation of αS protein and rescue neuronal cell death through elevation of BCL2 expression level as an anti-apoptotic protein and the expression level reduction of BAX and Caspase 3 as apoptotic markers. [ABSTRACT FROM AUTHOR]

Published

2023

50. Antiphotoaging and Skin-Protective Activities of Ardisia silvestris Ethanol Extract in Human Keratinocytes.

Author

Huang, Lei, You, Long, Aziz, Nur, Yu, Seung Hui, Lee, Jong Sub, Choung, Eui Su, Luong, Van Dung, Jeon, Mi-Jeong, Hur, Moonsuk, Lee, Sarah, Lee, Byoung-Hee, Kim, Han Gyung, and Cho, Jae Youl

Subjects

OCCLUDINS, MITOGEN-activated protein kinases, ETHANOL, HIGH performance liquid chromatography, KERATINOCYTES, SKIN aging, REPORTER genes

Abstract

Ardisia silvestris is a traditional medicinal herb used in Vietnam and several other countries. However, the skin-protective properties of A. silvestris ethanol extract (As-EE) have not been evaluated. Human keratinocytes form the outermost barrier of the skin and are the main target of ultraviolet (UV) radiation. UV exposure causes skin photoaging via the production of reactive oxygen species. Protection from photoaging is thus a key component of dermatological and cosmetic products. In this research, we found that As-EE can prevent UV-induced skin aging and cell death as well as enhance the barrier effect of the skin. First, the radical-scavenging ability of As-EE was checked using DPPH, ABTS, TPC, CUPRAC, and FRAP assays, and a 3-(4-5-dimethylthiazol-2-yl)-2-5-diphenyltetrazolium bromide assay was used to examine cytotoxicity. Reporter gene assays were used to determine the doses that affect skin-barrier-related genes. A luciferase assay was used to identify possible transcription factors. The anti-photoaging mechanism of As-EE was investigated by determining correlated signaling pathways using immunoblotting analyses. As-EE had no harmful effects on HaCaT cells, according to our findings, and As-EE revealed moderate radical-scavenging ability. With high-performance liquid chromatography (HPLC) analysis, rutin was found to be one of the major components. In addition, As-EE enhanced the expression levels of hyaluronic acid synthase-1 and occludin in HaCaT cells. Moreover, As-EE dose-dependently up-regulated the production of occludin and transglutaminase-1 after suppression caused by UVB blocking the activator protein-1 signaling pathway, in particular, the extracellular response kinase and c-Jun N-terminal kinase. Our findings suggest that As-EE may have anti-photoaging effects by regulating mitogen-activated protein kinase, which is good news for the cosmetics and dermatology sectors. [ABSTRACT FROM AUTHOR]

Published

2023