Your search keyword '"tumor invasion"' showing total 1,380 results

1. Identification of CD44 as a key engager to hyaluronic acid-rich extracellular matrices for cell traction force generation and tumor invasion in 3D

Author

Cheung, Brian C.H., Chen, Xingyu, Davis, Hannah J., Nordmann, Cassidy S., Toth, Joshua, Hodgson, Louis, Segall, Jeffrey E., Shenoy, Vivek B., and Wu, Mingming

Published

2025

2. The microenvironmental factors induced invasive tumor cells in glioblastoma

Author

Zhang, Jianyu, Li, Jinghui, Qi, Renli, Li, Shipeng, Geng, Xin, Shi, Hong, and Yu, Hualin

Published

2024

3. Oncostatin M [OSM] protein immuno-expression in oral squamous cell carcinoma – A prospective study

Author

Prakash, Sunil, Gunasekaran, Nandhini, Mahalingam, Ramya, and Krishnan, Rajkumar

Published

2024

4. BRAT1 - a new therapeutic target for glioblastoma.

Author

Haydo, Alicia, Schmidt, Jennifer, Crider, Alisha, Kögler, Tim, Ertl, Johanna, Hehlgans, Stephanie, Hoffmann, Marina E., Rathore, Rajeshwari, Güllülü, Ömer, Wang, Yecheng, Zhang, Xiangke, Herold-Mende, Christel, Pampaloni, Francesco, Tegeder, Irmgard, Dikic, Ivan, Dai, Mingji, Rödel, Franz, Kögel, Donat, and Linder, Benedikt

Subjects

*TUMOR growth, *BRAIN tumors, *CELL migration, *NEURAL development, *GLIOBLASTOMA multiforme

Abstract

Glioblastoma (GBM), the most malignant primary brain tumor in adults, has poor prognosis irrespective of therapeutic advances due to its radio-resistance and infiltrative growth into brain tissue. The present study assessed functions and putative druggability of BRCA1-associated ATM activator 1 (BRAT1) as a crucial factor driving key aspects of GBM, including enhanced DNA damage response and tumor migration. By a stable depletion of BRAT1 in GBM and glioma stem-like (GSC) cell lines, we observed a delay in DNA double-strand break repair and increased sensitivity to radiation treatment, corroborated by in vitro and in vivo studies demonstrating impaired tumor growth and invasion. Proteomic and phosphoproteomic analyses further emphasize the role of BRAT1's cell migration and invasion capacity, with a notable proportion of downregulated proteins associated with these processes. In line with the genetic manipulation, we found that treatment with the BRAT1 inhibitor Curcusone D (CurD) significantly reduced GSC migration and invasion in an ex vivo slice culture model, particularly when combined with irradiation, resulting in a synergistic inhibition of tumor growth and infiltration. Our results reveal that BRAT1 contributes to GBM growth and invasion and suggest that therapeutic inhibition of BRAT1 with CurD or similar compounds might constitute a novel approach for anti-GBM directed treatments. [ABSTRACT FROM AUTHOR]

Published

2025

5. High-Accuracy Positivity-Preserving Finite Difference Approximations of the Chemotaxis Model for Tumor Invasion.

Author

Zhang, Lin, Peng, Jigen, Ge, Yongbin, Li, Haiyang, and Tang, Yuchao

Subjects

*FINITE difference method, *FINITE differences, *NUMERICAL integration, *TUMOR growth, *METASTASIS

Abstract

Numerical simulation of the complex evolution process for tumor invasion plays an extremely important role in-depth exploring the bio-taxis phenomena of tumor growth and metastasis. In view of the fact that low-accuracy numerical methods often have large errors and low resolution, very refined grids have to be used if we want to get high-resolution simulating results, which leads to a great deal of computational cost. In this paper, we are committed to developing a class of high-accuracy positivity-preserving finite difference methods to solve the chemotaxis model for tumor invasion. First, two unconditionally stable implicit compact difference schemes for solving the model are proposed; second, the local truncation errors of the new schemes are analyzed, which show that they have second-order accuracy in time and fourth-order accuracy in space; third, based on the proposed schemes, the high-accuracy numerical integration idea of binary functions is employed to structure a linear compact weighting formula that guarantees fourth-order accuracy and nonnegative, and then a positivity-preserving and time-marching algorithm is established; and finally, the accuracy, stability, and positivity-preserving of the proposed methods are verified by several numerical experiments, and the evolution phenomena of tumor invasion over time are numerically simulated and analyzed. [ABSTRACT FROM AUTHOR]

Published

2024

6. Diagnostic accuracy of upper tract urothelial carcinoma using biopsy, urinary cytology, and nephroureterectomy specimens: A tertiary cancer center experience.

Author

Zhao, Jianping, Shen, Yuan, Guo, Ming, Matin, Surena F, Hansel, Donna E, and Guo, Charles C

Subjects

*TRANSITIONAL cell carcinoma, *TUMOR grading, *KIDNEY pelvis, *NEOADJUVANT chemotherapy, *URINARY organs

Abstract

Objectives We studied the diagnostic accuracy and discordance of upper tract urothelial carcinoma (UTUC) by comparing biopsy and urinary cytology with matched nephroureterectomy specimens. Methods Sixty-nine patients with UTUC without neoadjuvant treatment were retrospectively identified who had matched biopsy and nephroureterectomy specimens. Twenty patients had concurrent upper tract cytology. H&E and cytology slides were re-reviewed. Statistical analysis was performed. Results Patients included 48 men and 21 women with a mean age of 69 years. A concordant grade between biopsy and surgical specimen was present in 49 (71%) patients. The mean size of biopsy specimens in the discordant group was significantly smaller than that in the concordant group. Invasion was evaluated in 48 biopsy cases that had adequate subepithelial tissue, and 33 of them were diagnosed with concordant invasion status. Mean tumor size in both tumor grade and invasion discordant groups was significantly larger than that in the concordant group. High-grade urothelial carcinoma was detected in 84% of cases using urinary cytology. Conclusions Our study demonstrates the diagnostic challenges of UTUC on small biopsy specimens. Biopsy specimen size and tumor size are significantly associated with the diagnostic discordance. Upper tract cytology showed high diagnostic accuracy and should be complementary to the biopsy. [ABSTRACT FROM AUTHOR]

Published

2024

7. Tumor-Associated Tractography Derived from High-Angular-Resolution Q-Space MRI May Predict Patterns of Cellular Invasion in Glioblastoma †.

Author

Leary, Owen P., Zepecki, John P., Pizzagalli, Mattia, Toms, Steven A., Liu, David D., Suita, Yusuke, Ding, Yao, Wang, Jihong, He, Renjie, Chung, Caroline, Fuller, Clifton D., Boxerman, Jerrold L., Tapinos, Nikos, and Gilbert, Richard J.

Subjects

*BIOPSY, *GLIOMAS, *CANCER invasiveness, *CANCER relapse, *T-test (Statistics), *THREE-dimensional imaging, *RESEARCH funding, *RADIOMICS, *MAGNETIC resonance imaging, *TUMOR markers, *DESCRIPTIVE statistics, *XENOGRAFTS, *MICE, *RNA, *LONGITUDINAL method, *KAPLAN-Meier estimator, *ANIMAL experimentation, *GENE expression profiling, *SEQUENCE analysis, *OVERALL survival, *REGRESSION analysis, *PHENOTYPES

Abstract

Simple Summary: While tumor cell invasion beyond the surgically resectable "margin" of glioblastoma is thought to be associated with nearly 100% of recurrences and poor survival, no reliable methods exist for mapping the location of invading tumor cells within the human brain. Building on prior work demonstrating the ability of Q-space magnetic resonance imaging (QSI) to highlight structural alterations in tissue architecture, we hypothesized that using this imaging method to construct tumor-associated tractography might identify tumor-specific structures that underlie cellular invasion. Our results demonstrate that such tractography patterns can be observed in a tumor-specific manner, and provide preliminary evidence that those patterns may colocalize with invading tumor cells, and metrics derived from them may be associated with patient survival time. Background: The invasion of glioblastoma cells beyond the visible tumor margin depicted by conventional neuroimaging is believed to mediate recurrence and predict poor survival. Radiomic biomarkers that are associated with the direction and extent of tumor infiltration are, however, non-existent. Methods: Patients from a single center with newly diagnosed glioblastoma (n = 7) underwent preoperative Q-space magnetic resonance imaging (QSI; 3T, 64 gradient directions, b = 1000 s/mm2) between 2018 and 2019. Tumors were manually segmented, and patterns of inter-voxel coherence spatially intersecting each segmentation were generated to represent tumor-associated tractography. One patient additionally underwent regional biopsy of diffusion tract- versus non-tract-associated tissue during tumor resection for RNA sequencing. Imaging data from this cohort were compared with a historical cohort of n = 66 glioblastoma patients who underwent similar QSI scans. Associations of tractography-derived metrics with survival were assessed using t-tests, linear regression, and Kaplan–Meier statistics. Patient-derived glioblastoma xenograft (PDX) mice generated with the sub-hippocampal injection of human-derived glioblastoma stem cells (GSCs) were scanned under high-field conditions (QSI, 7T, 512 gradient directions), and tumor-associated tractography was compared with the 3D microscopic reconstruction of immunostained GSCs. Results: In the principal enrollment cohort of patients with glioblastoma, all cases displayed tractography patterns with tumor-intersecting tract bundles extending into brain parenchyma, a phenotype which was reproduced in PDX mice as well as in a larger comparison cohort of glioblastoma patients (n = 66), when applying similar methods. Reconstructed spatial patterns of GSCs in PDX mice closely mirrored tumor-associated tractography. On a Kaplan–Meier survival analysis of n = 66 patients, the calculated intra-tumoral mean diffusivity predicted the overall survival (p = 0.037), as did tractography-associated features including mean tract length (p = 0.039) and mean projecting tract length (p = 0.022). The RNA sequencing of human tissue samples (n = 13 tumor samples from a single patient) revealed the overexpression of transcripts which regulate cell motility in tract-associated samples. Conclusions: QSI discriminates tumor-specific patterns of inter-voxel coherence believed to represent white matter pathways which may be susceptible to glioblastoma invasion. These findings may lay the groundwork for future work on therapeutic targeting, patient stratification, and prognosis in glioblastoma. [ABSTRACT FROM AUTHOR]

Published

2024

8. Contribution of Keratinocytes in Skin Cancer Initiation and Progression.

Author

Dainese-Marque, Océane, Garcia, Virginie, Andrieu-Abadie, Nathalie, and Riond, Joëlle

Subjects

*BASAL cell carcinoma, *SUNSHINE, *CELL anatomy, *SKIN cancer, *SQUAMOUS cell carcinoma

Abstract

Keratinocytes are major cellular components of the skin and are strongly involved in its homeostasis. Oncogenic events, starting mainly from excessive sun exposure, lead to the dysregulation of their proliferation and differentiation programs and promote the initiation and progression of non-melanoma skin cancers (NMSCs). Primary melanomas, which originate from melanocytes, initiate and develop in close interaction with keratinocytes, whose role in melanoma initiation, progression, and immune escape is currently being explored. Recent studies highlighted, in particular, unexpected modes of communication between melanocytic cells and keratinocytes, which may be of interest as sources of new biomarkers in melanomagenesis or potential therapeutic targets. This review aims at reporting the various contributions of keratinocytes in skin basal cell carcinoma (BCC), cutaneous squamous cell carcinoma (cSCC), and melanoma, with a greater focus on the latter in order to highlight some recent breakthrough findings. The readers are referred to recent reviews when contextual information is needed. [ABSTRACT FROM AUTHOR]

Published

2024

9. FABP4 facilitates epithelial-mesenchymal transition via elevating CD36 expression in glioma cells

Author

Zhongsheng You, Zihao Hu, Chongxian Hou, Chengcheng Ma, Xiangdong Xu, Yaofeng Zheng, Xinlin Sun, Yiquan Ke, Jianli Liang, Zijing Xie, Lingling Shu, and Yang Liu

Subjects

FABP4, Glioblastoma, Epithelial-mesenchymal transition, Tumor invasion, CD36, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Glioblastoma multiforme (GBM) is the most aggressive brain tumor with poor prognosis. A better understanding of mechanisms concerned in glioma invasion might be critical for treatment optimization. Given that epithelial-mesenchymal transition in tumor cells is closely associated with glioma progression and recurrence, identifying pivotal mediators in GBM EMT process is urgently needed. As a member of Fatty acid binding protein (FABP) family, FABP4 serves as chaperones for free fatty acids and participates in cellular process including fatty acid uptake, transport, and metabolism. In this study, our data revealed that FABP4 expression was elevated in human GBM samples and correlated with a mesenchymal glioma subtype. Gain of function and loss of function experiments indicated that FABP4 potently rendered glioma cells increased filopodia formation and cell invasiveness. Differential expression genes analysis and GSEA in TCGA dataset revealed an EMT-related molecular signature in FABP4-mediated signaling pathways. Cell interaction analysis suggested CD36 as a potential target regulated by FABP4. Furthermore, in vitro mechanistic experiments demonstrated that FABP4-induced CD36 expression promoted EMT via non-canonical TGFβ pathways. An intracranial glioma model was constructed to assess the effect of FABP4 on tumor progression in vivo. Together, our findings demonstrated a critical role for FABP4 in the regulation invasion and EMT in GBM, and suggest that pharmacological inhibition of FABP4 may represent a promising therapeutic strategy for treatment of GBM.

Published

2024

10. Computational insights into tumor invasion dynamics: A finite element approach.

Author

Irum, Saba, Almakayeel, Naif, and Deebani, Wejdan

Subjects

*NONLINEAR differential equations, *PARTIAL differential equations, *EVOLUTION equations, *EULER method, *FINITE element method

Abstract

The finite element scheme is proposed and analyzed for the solution of an acid-mediated tumor invasion model. The reaction–diffusion equation shows the evolution in the tumor cell density, H + ions concentration, and healthy tissue density over time. The coupled non-linear partial differential equations are discretized in time with the implicit Euler method and in space with standard Galerkin finite element. To solve the non-linear and coupled terms of the system a fixed point iteration scheme is presented. Moreover, a mass-lumped scheme is adopted to reduce the computation cost. The cut-off method is used to compute the bounded solutions of the PDEs. Finally, The effects of proliferation rate and healthy tissue degradation rate are investigated. We aim to address the following research questions in our study, • How can a finite element algorithm be developed to simulate the tumor cell dynamics? • What key components should be considered to accurately represent tumor invasion? • How does acidity affect cell proliferation, and extracellular matrix remodeling? • How does the spatial and temporal heterogeneity contribute to variations in tumor invasion? • Can the finite element algorithm provide insights into the impact of heterogeneity on tumor invasion? [ABSTRACT FROM AUTHOR]

Published

2025

11. The development of in vitro organotypic 3D vulvar models to study tumor-stroma interaction and drug efficacy.

Author

Wu, Shidi, Huisman, Bertine W., Rietveld, Marion H., Rissmann, Robert, Vermeer, Maarten H., van Poelgeest, Mariette I. E., and El Ghalbzouri, Abdoelwaheb

Subjects

*DRUG interactions, *DRUG efficacy, *SQUAMOUS cell carcinoma, *BASAL lamina, *FIBROBLASTS, *SKIN regeneration, KERATINOCYTE differentiation

Abstract

Background: Vulvar squamous cell carcinoma (VSCC) is a rare disease with a poor prognosis. To date, there's no proper in vitro modeling system for VSCC to study its pathogenesis or for drug evaluation. Methods: We established healthy vulvar (HV)- and VSCC-like 3D full thickness models (FTMs) to observe the tumor-stroma interaction and their applicability for chemotherapeutic efficacy examination. VSCC-FTMs were developed by seeding VSCC tumor cell lines (A431 and HTB117) onto dermal matrices harboring two NF subtypes namely papillary fibroblasts (PFs) and reticular fibroblasts (RFs), or cancer-associated fibroblasts (CAFs) while HV-FTMs were constructed with primary keratinocytes and fibroblasts isolated from HV tissues. Results: HV-FTMs highly resembled HV tissues in terms of epidermal morphogenesis, basement membrane formation and collagen deposition. When the dermal compartment shifted from PFs to RFs or CAFs in VSCC-FTMs, tumor cells demonstrated more proliferation, EMT induction and stemness. In contrast to PFs, RFs started to lose their phenotype and express robust CAF-markers α-SMA and COL11A1 under tumor cell signaling induction, indicating a favored 'RF-to-CAF' transition in VSCC tumor microenvironment (TME). Additionally, chemotherapeutic treatment with carboplatin and paclitaxel resulted in a significant reduction in tumor-load and invasion in VSCC-FTMs. Conclusion: We successfully developed in vitro 3D vulvar models mimicking both healthy and tumorous conditions which serve as a promising tool for vulvar drug screening programs. Moreover, healthy fibroblasts demonstrate heterogeneity in terms of CAF-activation in VSCC TME which brings insights in the future development of novel CAF-based therapeutic strategies in VSCC. [ABSTRACT FROM AUTHOR]

Published

2024

12. Effects of imipramine on cancer patients over-expressing Fascin1; description of the HITCLIF clinical trial.

Author

Asensi-Cantó, Antonio, Rodríguez-Braun, Edith, Beltrán-Videla, Asunción, Hurtado, Ana María, and Conesa-Zamora, Pablo

Subjects

IMIPRAMINE, TRIPLE-negative breast cancer, CLINICAL trials, CANCER patients, TUMOR budding

Abstract

Background: Tumor invasion and metastasis are responsible for the majority of cancer-related deaths. The identification of molecules involved in these processes is crucial to design effective treatments that can halt the progression of cancer. To spread and metastasize, tumor cells must restructure their cytoskeleton and emit protrusions. A key molecule in this process of creating these invading structures is Fascin1, the main protein involved in the formation of actin cytoskeleton bundles and a consistent marker of bad prognosis in several types of cancer. Recent studies have shown that imipramine, an FDA- and EMA-approved antidepressant, can block Fascin1and prevent the formation of actin bundles, making it a promising candidate for the treatment of Fascin1-expressing cancers. As a result, a clinical trial will be conducted to assess the efficacy of imipramine being the first experimental clinical study selecting patients based on Fascin1 expression. Methods: The HITCLIF trial is a multicenter, double-blind, placebo-controlled, randomized and non-commercial phase II clinical trial conducted in parallel groups to evaluate the effectiveness of the tricyclic antidepressant imipramine as anti-invasive agent in the treatment of localized colon, rectal and triple negative breast cancer patients with overexpression of Fascin1. Eligible patients will be randomly assigned, in a 1:1 ratio, to receive imipramine or placebo. Patients will be stratified into 2 groups according to whether administration of imipramine is concomitant with neoadjuvant chemotherapy regimen. Group A will receive imipramine alone without neoadjuvant chemotherapy, while Group B will receive imipramine treatment along with the standard neoadjuvant chemotherapy regimen. The primary endpoint of the trial is the grade of alteration in the prognostic histopathological features at invasive margins (tumor budding, cytoplasmic pseudo-fragments, tumor growth pattern, and peritumoral lymphocytic infiltration). Discussion: Fascin1 is an interesting therapeutical target as it plays a causative role in the invasion and metastasis of cancer cells. Moreover, its expression is virtually absent in normal epithelia but highly expressed in cancer with bad prognosis. In silico, in vitro and in vivo studies by our group have demonstrated that the antidepressant imipramine has Fascin1-dependant anti-invasive and antimetastatic effects in colorectal cancer cells. Now we are recruiting patients in a clinical trial based on Fascin1 over-expression in which administration of imipramine will be carried out during the period between the diagnosis biopsy and surgical resection to explore the drug effects on tumor invasive front. Clinical trial registration: https:///www.clinicaltrialsregister.eu/ctr-search/trial/2021-001328-17/ES, identifier 2021-001328-17. [ABSTRACT FROM AUTHOR]

Published

2024

13. Comment on “Route patterns of the collateral venous pathway in patients with tumors invading the superior sagittal sinus: an angiographic study and clinical applications”

Author

karera, Sanjana, Zammam, Muhammad, and kumar, Uday

Published

2024

14. KCNA1 promotes the growth and invasion of glioblastoma cells through ferroptosis inhibition via upregulating SLC7A11

Author

Wang, Weichao, Zhang, Yang, Li, Xuetao, E, Qinzi, Jiang, Zuoyu, Shi, Qikun, Huang, Yu, Wang, Jian, and Huang, Yulun

Published

2024

15. Reductive lipid nanoparticles loaded with vinorelbine inhibit chemotherapy-induced invasion of cancer cells by modulating ENPP2.

Author

Zhao, Xiaoqi, Guo, Xuemeng, Pang, Mei, Qiu, Weigen, Luo, Zhenyu, Lin, Qing, Lu, Yichao, Yin, Hang, Wang, Sijie, Liu, Huihui, Zhang, Junlei, Luo, Lihua, and You, Jian

Subjects

VINORELBINE, CANCER cells, CHEMOTHERAPY complications, METASTASIS, VITAMIN E, CANCER invasiveness

Abstract

Cancer is a predominant culprit behind worldwide death and accounts for up to 10 million deaths every year. Chemotherapy is the primary therapeutic method employed for cancer in clinical settings and is essential in controlling tumor progression. Despite the advances in this field, tumor invasion and metastasis during treatment remain a significant cause of treatment failure. Nevertheless, the underlying mechanisms involving such a disappointing phenomenon are still not fully elucidated. Vinorelbine (VNB) extends the lifespan of many cancer patients in the clinic as an emerging chemotherapy drug approved by Food and Drug Administration (FDA). However, VNB-induced tumor metastasis is still an intractable problem, which may be closely related to the abnormal oxidative stress generated during VNB-mediated treatment. Hence, the study aims to construct a reductive nanosystem loaded with VNB, called VNB-VNP, to improve cancer cure rates and reduce tumor metastasis. With the reductive component vitamin E, VNB-VNP can effectively reduce oxidative stress and significantly outperform free VNB in preventing tumor progression. The transcriptome analysis shows that VNB-VNP can alleviate the over-expression of ectonucleotide pyrophosphatase/phosphodiesterase 2 (ENPP2), which may be the main reason why VNB-VNP can inhibit tumor invasion and metastasis. Overall, the research designs a new platform for VNB treatment, which demonstrates promising efficacy in inhibiting neoplastic progression and identifies a new mechanism associated with VNB-induced tumor metastasis, which may offer several valuable references for enhancing chemotherapy efficacy in clinical anti-tumor therapy. [ABSTRACT FROM AUTHOR]

Published

2024

16. New insights into the role of thrombospondin-1 in glioblastoma development.

Author

Bikfalvi, Andreas, Guyon, Joris, and Daubon, Thomas

Subjects

*THROMBOSPONDIN-1, *GLIOBLASTOMA multiforme, *SURVIVAL rate, *TUMOR microenvironment, *GLIOMAS

Abstract

Glioblastoma (GB), the most malignant subtype of diffuse glioma, is highly aggressive, invasive and vascularized. Its median survival is still short even with maximum standard care. There is a need to identify potential new molecules and mechanisms, that are involved in the interactions of GB cells with the tumor microenvironment (TME), for therapeutic intervention. Thrombospondin-1 (TSP1) is a multi-faceted matricellular protein which plays a significant role in development, physiology and pathology including cancer. Recent studies have pinpoint an important role of TSP1 in GB development which will be summarized and discussed herein. We will discuss studies, mainly from preclinical research, which should lead to a deeper understanding of TSP1's role in GB development. We will also discuss some issues with regard to the use of this knowledge for the clinic. [ABSTRACT FROM AUTHOR]

Published

2024

17. High Engraftment and Metastatic Rates in Orthotopic Xenograft Models of Gastric Cancer via Direct Implantation of Tumor Cell Suspensions.

Author

Wang, Chao, Xie, Guo-Min, Zhang, Li-Ping, Yan, Shuo, Xu, Jia-Li, Han, Yun-Lin, Luo, Ming-Jie, and Gong, Jia-Nan

Subjects

*STOMACH tumors, *XENOGRAFTS, *IN vivo studies, *ANALYSIS of variance, *CANCER invasiveness, *METASTASIS, *CELL physiology, *T-test (Statistics), *DESCRIPTIVE statistics, *DATA analysis software, *MICE

Abstract

Simple Summary: Despite remarkable progress in treating early-stage gastric cancer (GC), the clinical outcomes for patients with advanced disease remain very poor. Tissue invasion and metastasis constitute the major causes of cancer-related deaths, including GC. This highlights the urgent need to develop animal models that can recapitulate these processes to develop novel therapeutic strategies. We developed a highly reproducible and cost-effective procedure to establish orthotopic GC xenografts showing high engraftment and metastatic rates via the direct implantation of tumor cell suspensions. Compared with the routine method to establish orthotopic xenograft models by engrafting intact tumor fragments, our approach significantly shortens the experimental timeline and allows for the flexible adjustment of the number of tumor cells implanted to control the rate of tumor progression. Both dose- and time-dependent progressions of tumor invasion and metastasis were nicely recapitulated in our model. Our work provides valuable tools for studying GC progression and metastasis and developing effective therapies. Although the implantation of intact tumor fragments is a common practice to generate orthotopic xenografts to study tumor invasion and metastasis, the direct implantation of tumor cell suspensions is necessary when prior manipulations of tumor cells are required. However, the establishment of orthotopic xenografts using tumor cell suspensions is not mature, and a comparative study directly comparing their engraftment and metastatic capabilities is lacking. It is unclear whether tumor fragments are superior to cell suspensions for successful engraftment and metastasis. In this study, we employed three GC cell lines with varying metastatic capacities to stably express firefly luciferase for monitoring tumor progression in real time. We successfully minimized the risk of cell leakage during the orthotopic injection of tumor cell suspensions without Corning Matrigel by systematically optimizing the surgical procedure, injection volume, and needle size options. Comparable high engraftment and metastatic rates between these two methods were demonstrated using MKN-45 cells with a strong metastatic ability. Importantly, our approach can adjust the rate of tumor progression flexibly and cuts the experimental timeline from 10–12 weeks (for tumor fragments) to 4–5 weeks. Collectively, we provided a highly reproducible procedure with a shortened experimental timeline and low cost for establishing orthotopic GC xenografts via the direct implantation of tumor cell suspensions. [ABSTRACT FROM AUTHOR]

Published

2024

18. Boundedness and large-time behavior in a chemotaxis system with signal-dependent motility arising from tumor invasion.

Author

Li, Dan

Abstract

In this paper, we study the following chemotaxis system with signal-dependent motility arising from tumor invasion u t = Δ (φ (v) u) + ρ u - μ u l , x ∈ Ω , t > 0 , v t = Δ v + w z , x ∈ Ω , t > 0 , w t = - w z , x ∈ Ω , t > 0 , z t = Δ z - z + u , x ∈ Ω , t > 0 under homogeneous Neumann boundary conditions in a smooth bounded domain Ω ⊂ R n (n ≥ 1) , where the parameters ρ ≥ 0 , μ ≥ 0 and l > 1 are constants, the motility function φ (v) satisfies φ (v) ∈ C 3 ([ 0 , + ∞)) , φ 1 ≤ φ (v) ≤ φ 2 and | φ ′ (v) | ≤ φ 3 with φ 1 , φ 2 , φ 3 > 0. The purpose of this paper is to prove that the existence of global bounded solution for 1 ≤ n ≤ 3 . For n ≥ 4 , we prove that the nonnegative classical solution (u, v, w, z) is globally bounded if l > n 2 . In addition, we also show that all the global bounded solution will converge to the non-trivial constant steady state exponentially. [ABSTRACT FROM AUTHOR]

Published

2024

19. Tumor proliferation and invasion are intrinsically coupled and unraveled through tunable spheroid and physics-based models.

Author

Crawford, Ashleigh J., Gomez-Cruz, Clara, Russo, Gabriella C., Huang, Wilson, Bhorkar, Isha, Roy, Triya, Muñoz-Barrutia, Arrate, Wirtz, Denis, and Garcia-Gonzalez, Daniel

Subjects

TISSUE mechanics, TUMOR growth, CADHERINS, TUMORS, EXTRACELLULAR matrix, SYSTEMS biology

Abstract

Proliferation and invasion are two key drivers of tumor growth that are traditionally considered independent multicellular processes. However, these processes are intrinsically coupled through a maximum carrying capacity, i.e., the maximum spatial cell concentration supported by the tumor volume, total cell count, nutrient access, and mechanical properties of the tissue stroma. We explored this coupling of proliferation and invasion through in vitro and in silico methods where we modulated the mechanical properties of the tumor and the surrounding extracellular matrix. E-cadherin expression and stromal collagen concentration were manipulated in a tunable breast cancer spheroid to determine the overall impacts of these tumor variables on net tumor proliferation and continuum invasion. We integrated these results into a mixed-constitutive formulation to computationally delineate the influences of cellular and extracellular adhesion, stiffness, and mechanical properties of the extracellular matrix on net proliferation and continuum invasion. This framework integrates biological in vitro data into concise computational models of invasion and proliferation to provide more detailed physical insights into the coupling of these key tumor processes and tumor growth. Tumor growth involves expansion into the collagen-rich stroma through intrinsic coupling of proliferation and invasion within the tumor continuum. These processes are regulated by a maximum carrying capacity that is determined by the total cell count, tumor volume, nutrient access, and mechanical properties of the surrounding stroma. The influences of biomechanical parameters (i.e., stiffness, cell elongation, net proliferation rate and cell-ECM friction) on tumor proliferation or invasion cannot be unraveled using experimental methods alone. By pairing a tunable spheroid system with computational modeling, we delineated the interdependencies of each system parameter on tumor proliferation and continuum invasion, and established a concise computational framework for studying tumor mechanobiology. [Display omitted] [ABSTRACT FROM AUTHOR]

Published

2024

20. Regulation of Tumor Invasion by the Physical Microenvironment: Lessons from Breast and Brain Cancer

Author

Beeghly, Garrett F, Amofa, Kwasi Y, Fischbach, Claudia, and Kumar, Sanjay

Subjects

Brain Disorders, Brain Cancer, Neurosciences, Breast Cancer, Rare Diseases, Bioengineering, Cancer, Aetiology, 2.1 Biological and endogenous factors, Brain Neoplasms, Glioblastoma, Humans, Neoplasm Invasiveness, Tumor Microenvironment, breast cancer, glioblastoma, physical microenvironment, mechanobiology, tumor invasion, engineering strategies, Biomedical Engineering

Abstract

The success of anticancer therapies is often limited by heterogeneity within and between tumors. While much attention has been devoted to understanding the intrinsic molecular diversity of tumor cells, the surrounding tissue microenvironment is also highly complex and coevolves with tumor cells to drive clinical outcomes. Here, we propose that diverse types of solid tumors share common physical motifs that change in time and space, serving as universal regulators of malignancy. We use breast cancer and glioblastoma as instructive examples and highlight how invasion in both diseases is driven by the appropriation of structural guidance cues, contact-dependent heterotypic interactions with stromal cells, and elevated interstitial fluid pressure and flow. We discuss how engineering strategies show increasing value for measuring and modeling these physical propertiesfor mechanistic studies. Moreover, engineered systems offer great promise for developing and testing novel therapies that improve patient prognosis by normalizing the physical tumor microenvironment.

Published

2022

21. Deciphering the suppressive effects of CBX8 on prostate cancer cell invasion

Author

YANG Wanli, SONG Juan, LI Bing, and LAO Yimin

Subjects

chromobox protein homolog 8 (cbx8), prostate cancer, cell proliferation, tumor invasion, Medicine

Abstract

Objective·To elucidate the regulatory mechanisms of the chromobox protein homolog 8 (CBX8) in prostate cancer metastasis from transcriptome and epigenetic modification perspectives.Methods·The correlation between the expression of CBX proteins and prostate adenocarcinoma (PRAD) in The Cancer Genome Atlas (TCGA) was examined through an analysis based on cBioPortal database. A stable CBX8 knockdown DU145 prostate cancer cell line was established via short hairpin RNA (shRNA) transfection. Subsequently, the proliferation and invasion of the CBX8 knockdown cells were analyzed by CCK-8 assay and Transwell assay, respectively. Transcriptome changes of the CBX8 knockdown cells were investigated through RNA sequencing (RNA-seq) coupled with Gene Set Enrichment Analysis (GSEA). To further evaluate the functional implications of these transcriptomic alterations, Gene Ontology (GO) for functional analysis was deployed. Moreover, to identify potentially affected signalling pathways, the Kyoto Encyclopedia of Genes and Genomes (KEGG) was utilized for pathway enrichment analysis. Lastly, the levels of H3K27me3, a key histone modification associated with CBX8, in the knockdown cells were determined by chromatin immunoprecipitation sequencing (ChIP-seq).Results·Bioinformatic analysis with cBioPortal database, based on TCGA-PRAD cohorts, unveiled a high CBX8 mRNA expression in PRAD. Knockdown of CBX8 did not significantly affect the proliferation of DU145 cells (P>0.05), but caused a a significant increase in their invasiveness (P

Published

2023

22. CBX8 抑制前列腺癌细胞侵袭的机制研究.

Author

杨万里, 宋娟, 李兵, and 劳一敏

Abstract

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Published

2023

23. Fitting parameters and therapies of ODE tumor models with senescence and immune system.

Author

Guillén-González, F., Sevillano-Castellano, E., and Suárez, A.

Abstract

This work is devoted to introduce and study two quasispecies nonlinear ODE systems that model the behavior of tumor cell populations organized in different states. In the first model, replicative, senescent, extended lifespan, immortal and tumor cells are considered, while the second also includes immune cells. We fit the parameters regulating the transmission between states in order to approximate the outcomes of the models to a real progressive tumor invasion. After that, we study the identifiability of the fitted parameters, by using two sensitivity analysis methods. Then, we show that an adequate reduced fitting process (only accounting to the most identifiable parameters) gives similar results but saving computational cost. Three different therapies are introduced in the models to shrink (progressively in time) the tumor, while the replicative and senescent cells invade. Each therapy is identified to a dimensionless parameter. Then, we make a fitting process of the therapies’ parameters, in various scenarios depending on the initial tumor according to the time when the therapies started. We conclude that, although the optimal combination of therapies depends on the size of initial tumor, the most efficient therapy is the reinforcement of the immune system. Finally, an identifiability analysis allows us to detect a limitation in the therapy outcomes. In fact, perturbing the optimal combination of therapies under an appropriate therapeutic vector produces virtually the same results. [ABSTRACT FROM AUTHOR]

Published

2023

24. Intercellular Molecular Crosstalk Networks within Invasive and Immunosuppressive Tumor Microenvironment Subtypes Associated with Clinical Outcomes in Four Cancer Types.

Author

Wei, Jinfen, Yu, Wenqi, Wu, Lei, Chen, Zixi, Huang, Guanda, Hu, Meiling, and Du, Hongli

Subjects

TUMOR microenvironment, CANCER prognosis, CELL communication, PROGRAMMED cell death 1 receptors, PROGNOSIS, CANCER cells, PANCREATIC intraepithelial neoplasia

Abstract

Heterogeneity is a critical basis for understanding how the tumor microenvironment (TME) contributes to tumor progression. However, an understanding of the specific characteristics and functions of TME subtypes (subTMEs) in the progression of cancer is required for further investigations into single-cell resolutions. Here, we analyzed single-cell RNA sequencing data of 250 clinical samples with more than 200,000 cells analyzed in each cancer datum. Based on the construction of an intercellular infiltration model and unsupervised clustering analysis, four, three, three, and four subTMEs were revealed in breast, colorectal, esophageal, and pancreatic cancer, respectively. Among the subTMEs, the immune-suppressive subTME (subTME-IS) and matrix remodeling with malignant cells subTME (subTME-MRM) were highly enriched in tumors, whereas the immune cell infiltration subTME (subTME-ICI) and precancerous state of epithelial cells subTME (subTME-PSE) were less in tumors, compared with paracancerous tissues. We detected and compared genes encoding cytokines, chemokines, cytotoxic mediators, PD1, and PD-L1. The results showed that these genes were specifically overexpressed in different cell types, and, compared with normal tissues, they were upregulated in tumor-derived cells. In addition, compared with other subTMEs, the expression levels of PDCD1 and TGFB1 were higher in subTME-IS. The Cox proportional risk regression model was further constructed to identify possible prognostic markers in each subTME across four cancer types. Cell-cell interaction analysis revealed the distinguishing features in molecular pairs among different subTMEs. Notably, ligand–receptor gene pairs, including COL1A1-SDC1, COL6A2-SDC1, COL6A3-SDC1, and COL4A1-ITGA2 between stromal and tumor cells, associated with tumor invasion phenotypes, poor patient prognoses, and tumor advanced progression, were revealed in subTME-MRM. C5AR1-RPS19, LGALS9-HAVCR2, and SPP1-PTGER4 between macrophages and CD8+ T cells, associated with CD8+ T-cell dysfunction, immunosuppressive status, and tumor advanced progression, were revealed in subTME-IS. The spatial co-location information of cellular and molecular interactions was further verified by spatial transcriptome data from colorectal cancer clinical samples. Overall, our study revealed the heterogeneity within the TME, highlighting the potential pro-invasion and pro-immunosuppressive functions and cellular infiltration characteristics of specific subTMEs, and also identified the key cellular and molecular interactions that might be associated with the survival, invasion, immune escape, and classification of cancer patients across four cancer types. [ABSTRACT FROM AUTHOR]

Published

2023

25. Surgical Management of Locally Advanced Thyroid Cancer with Tracheal Invasion

Author

Yao, Christopher M. K. L., Hill, Maureen V., (Drew) Ridge, John A., Roman, Sanziana A., editor, Shen, Wen T., editor, and Sosa, Julie Ann, editor

Published

2023

26. Characteristics of immune-active and immune-silent phenotypes of early-stage cervical carcinoma as revealed by transcriptome sequencing

Author

O. V. Kurmyshkina, P. I. Kovchur, and T. O. Volkova

Subjects

virus-associated cervical cancer, transcriptome profiling, tumor invasion, tumor microenvironment, pre-invasive lesions, signaling pathways, immune infiltration, immune suppression, Immunologic diseases. Allergy, RC581-607

Abstract

Molecular classification, immuneheterogeneity, and the existence of distinct immunophenotypes of virus-associated cervical cancer (CeCa) remain as-yet weakly explored issues, and this is particularly true of its earliest clinical stages and pre-invasive forms: cervical intraepithelial neoplastic (CIN) lesions. The goal of the study was to identify transcriptomic landscapes of invasive CeCa at its initial progression that differ substantially in their immune-related characteristics, patterns of signaling pathways and composition of the microenvironment. Transcriptome profiling was carried out using RNA-sequencing on Illumina platform. A panel of surgical-derived tissue samples comprised human papillomavirus-positive CIN grade 1-3, cancer of FIGO IA1-IIB stages, and morphologically normal epithelium. Transcriptomic profiles were analyzed with the use of bioinformatics tools, such as gene set enrichment (GAGE) for signaling pathways, xCell enrichment for cell composition identification, and PREDA positional analysis of genomic data. Hierarchical clustering revealed heterogeneity of transcriptomic profiles within the early-stage CeCa, namely, the existence of two clusters of tumor samples and three functional patterns of genes showing coordinately altered expression. Pathway enrichment analysis on genes differently expressed between the two clusters/groups of CeCa samples (‘A' and ‘B') and CIN (group ‘C') suggested that invasive tumor progression in groups ‘A' and ‘B' might rely on immunologically dissimilar mechanisms. xCell analysis confirmed heterogeneity of changes in the abundancies of cell populations when comparing CeCa sample groups and CIN, along with differences in immune and stromal scores. PREDA demonstrated that these transcriptomic differences could be linked to different chromosomal regions and co-localized with particular gene families and potentially the reported virus integration hotspots. Overall, the existence and detectability of different transcriptomic immune-based phenotypes of invasive CeCa at its initial stages of progression is shown, which may provide new options to broaden the knowledge and applicability of target and immune anti-cancer therapy.

Published

2023

27. An in vitro model of cancer invasion with heterogeneous ECM created with droplet microfluidics

Author

Mohammad Jouybar, Jelle J. F. Sleeboom, Elnaz Vaezzadeh, Cecilia M. Sahlgren, and Jaap M. J. den Toonder

Subjects

cancer-on-a-chip, extracellular matrix, microfluidics, tumor invasion, heterogeneous ECM, tumor micro-environment, Biotechnology, TP248.13-248.65

Abstract

Metastasis is a multi-step process that is critically affected by cues from the tumor micro-environment (TME), such as from the extracellular matrix (ECM). The role of the ECM in the onset of metastasis, invasion, is not yet fully understood. A further complicating factor is that the ECM in the TME is mostly heterogeneous, in particular presenting a basement membrane (BM) directly enveloping the tumor, which acts as a barrier to invasion into the surrounding stromal ECM. To systematically investigate the role of ECM in invasion, appropriate in vitro models with control over such ECM heterogeneity are essential. We present a novel high-throughput microfluidic approach to build such a model, which enables to capture the invasion of cancer cells from the tumor, through the BM and into the stromal tissue. We used a droplet-maker device to encapsulate cells in beads of a primary hydrogel mimicking BM, Matrigel, which were then embedded in a secondary hydrogel mimicking stromal ECM, collagen I. Our technology ultimately provides control over parameters such as tissue size, cell count and type, and ECM composition and stiffness. As a proof-of-principle, we carried out a comparative study with two breast cancer cell types, and we observed typical behavior consistent with previous studies. Highly invasive MDA-MB-231 cells showed single cell invasion behavior, whereas poorly invasive MCF-7 cells physically penetrated the surrounding matrix collectively. A comparative analysis conducted between our heterogeneous model and previous models employing a single type of hydrogel, either collagen I or Matrigel, has unveiled a substantial difference in terms of cancer cell invasion distance. Our in vitro model resembles an in vivo heterogeneous cancer microenvironment and can potentially be used for high throughput studies of cancer invasion.

Published

2023

28. Sequencing-based transcriptome analysis reveals diversification of immune response- and angiogenesis-related expression patterns of early-stage cervical carcinoma as compared with high-grade CIN.

Author

Kurmyshkina, Olga V., Dobrynin, Pavel V., Kovchur, Pavel I., and Volkova, Tatyana O.

Subjects

GENE expression, GENE families, CARCINOMA, TRANSCRIPTOMES, TUMOR microenvironment, CERVICAL intraepithelial neoplasia

Abstract

Background: Molecular diversity of virus-associated cervical cancer remains a relatively underexplored issue, and interrelations of immunologic and angiogenic features during the establishment of a particular landscape of the cervical cancer microenvironment are not well-characterized, especially for its earliest clinical stages, although this may provide insight into the mechanisms behind the differences in tumor aggressiveness, treatment responsiveness and prognosis. In this research, we were aimed at identifying transcriptomic landscapes of earlystage cervical carcinoma that differ substantially in their immune-related characteristics, patterns of signaling pathways and composition of the microenvironment in comparison with immediate precursor (intraepithelial) lesions. Methods: We performed the Illumina platform-based RNA sequencing using a panel of fresh tissue samples that included human papillomavirus-positive cervical intraepithelial neoplastic lesions (CIN), invasive squamous carcinoma of the cervix of FIGO IA1-IIB stages, and morphologically normal epithelium. The derived transcriptomic profiles were bioinformatically analyzed and compared by patterns of signaling pathway activation, distribution of tumor-infiltrating cell populations, and genomic regions involved. Result: According to hierarchical cluster analysis of the whole-transcriptome profiles, tissue samples were distributed between three groups, or gene expression patterns (the one comprising most pre-cancer cases and the other two encompassing mostly early-stage invasive cancer cases). Differentially expressed genes were retrieved in each intergroup pairwise comparison followed by Gene Ontology analysis. Gene set enrichment analysis of the two groups of tumor samples in comparison with the CIN group identified substantial differences in immunological and angiogenic properties between tumorous groups suggesting the development of different molecular phenotypes. Cell composition analysis confirmed the diverse changes in the abundancies of immune and non-immune populations and, accordingly, different impacts of the immune and stromal compartments on the tumor microenvironment in these two groups of tumors compared to CIN. Positional gene expression analysis demonstrated that the identified transcriptomic differences were linked to different chromosomal regions and co-localized with particular gene families implicated in immune regulation, inflammation, cell differentiation, and tumor invasion. Conclusions: Overall, detection of different transcriptomic patterns of invasive cervical carcinoma at its earliest stages supports the diverse impacts of immune response- and angiogenesis-related mechanisms on the onset of tumor invasion and progression. This may provide new options for broadening the applicability and increasing the efficiency of target anti-angiogenic and immune-based therapy of virus-associated cervical carcinoma. [ABSTRACT FROM AUTHOR]

Published

2023

29. 利用人脑类器官构建胶质瘤侵袭模型.

Author

钟 颖, 张紫萱, 秦子夕, 李佩文, and 王丽辉

Subjects

*HUMAN embryonic stem cells, *MILITARY invasion, *HUMAN stem cells, *SOX2 protein, *EMBRYONIC stem cells, *ORGANOIDS, *NEUROETHICS

Abstract

AIM: To develop a glioma invasion model using human brain organoids, and to assess the invasive potential of tumor cells utilizing this model. METHODS: Human embryonic stem cells (ESCs) -derived brain organoids were generated through neural-directed induction. These brain organoids were then co-cultured with human glioma stem cells (GSCs), and a glioma invasion model was established. Subsequently, the invasive depth of various GSCs within the brain organoids was assessed to determine their invasive capacity. RESULTS: (1) On day 31, human ESCs were in‑ duced to differentiate into numerous neuroepithelial bud structures. Immunofluorescence staining confirmed the expression of neural stem cell-specific proteins Sox2, Pax6 and nestin, indicating the formation of brain organoids. (2) In the co-cul‑ ture of brain organoids with GSCs, invasion and growth of the GSCs were observed within the brain organoids, indicating successful establishment of a model for glioma invasion. (3) Variations were observed in the invasive depth of different GSCs infiltrating the brain organoids. CONCLUSION: A glioma invasion model using ESCs-derived human brain organoids is developed, which is expected to serve as a valuable tool for assessing the invasive potential of GSCs. [ABSTRACT FROM AUTHOR]

Published

2023

30. The P72R Polymorphism in R248Q/W p53 Mutants Modifies the Mutant Effect on Epithelial to Mesenchymal Transition Phenotype and Cell Invasion via CXCL1 Expression.

Author

De Souza, Cristabelle, Madden, Jill A, Minn, Dennis, Kumar, Vigneshwari Easwar, Montoya, Dennis J, Nambiar, Roshni, Zhu, Zheng, Xiao, Wen-Wu, Tahmassebi, Neeki, Kathi, Harikumara, Nelson, Nina, Karnezis, Anthony N, and Chien, Jeremy

Subjects

Tumor Cells, Cultured, Animals, Humans, Mice, Ovarian Neoplasms, Neoplasm Invasiveness, Xenograft Model Antitumor Assays, Apoptosis, Cell Proliferation, Gene Expression Regulation, Neoplastic, Phenotype, Mutation, Polymorphism, Genetic, Female, Tumor Suppressor Protein p53, Chemokine CXCL1, Epithelial-Mesenchymal Transition, Biomarkers, Tumor, CXCL1, P72R polymorphism, mutant p53, ovarian cancer, tumor invasion, Genetics, Ovarian Cancer, Biotechnology, Cancer, Rare Diseases, 2.1 Biological and endogenous factors, Other Chemical Sciences, Other Biological Sciences, Chemical Physics

Abstract

High-grade serous carcinoma (HGSC), the most lethal subtype of epithelial ovarian cancer (EOC), is characterized by widespread TP53 mutations (>90%), most of which are missense mutations (>70%). The objective of this study was to investigate differential transcriptional targets affected by a common germline P72R SNP (rs1042522) in two p53 hotspot mutants, R248Q and R248W, and identify the mechanism through which the P72R SNP affects the neomorphic properties of these mutants. Using isogenic cell line models, transcriptomic analysis, xenografts, and patient data, we found that the P72R SNP modifies the effect of p53 hotspot mutants on cellular morphology and invasion properties. Most importantly, RNA sequencing studies identified CXCL1 a critical factor that is differentially affected by P72R SNP in R248Q and R248W mutants and is responsible for differences in cellular morphology and functional properties observed in these p53 mutants. We show that the mutants with the P72 SNP promote a reversion of the EMT phenotype to epithelial characteristics, whereas its R72 counterpart promotes a mesenchymal transition via the chemokine CXCL1. These studies reveal a new role of the P72R SNP in modulating the neomorphic properties of p53 mutants via CXCL1, which has significant implications for tumor invasion and metastasis.

Published

2020

31. Tumor-on-a-chip platform to interrogate the role of macrophages in tumor progression.

Author

Bi, Ye, Shirure, Venktesh S, Liu, Ruiyang, Cunningham, Cassandra, Ding, Li, Meacham, J Mark, Goedegebuure, S Peter, George, Steven C, and Fields, Ryan C

Subjects

Cancer, 2.1 Biological and endogenous factors, Aetiology, Amino Acid Motifs, Animals, Cell Culture Techniques, Cell Line, Tumor, Disease Progression, Endothelial Cells, Humans, In Vitro Techniques, Lab-On-A-Chip Devices, Lymphocytes, Tumor-Infiltrating, Macrophage Activation, Macrophages, Mice, Mice, Inbred NOD, Mice, SCID, Neoplasms, Neovascularization, Pathologic, Phenotype, RNA, Small Cytoplasmic, RNA-Seq, Tumor Microenvironment, Tumor-Associated Macrophages, U937 Cells, tumor-on-a-chip, macrophage, angiogenesis, tumor invasion, Medicinal and Biomolecular Chemistry, Biochemistry and Cell Biology, Pharmacology and Pharmaceutical Sciences, General Science & Technology

Abstract

Tumor-infiltrating leukocytes, in particular macrophages, play an important role in tumor behavior and clinical outcome. The spectrum of macrophage subtypes ranges from antitumor 'M1'-type to protumor 'M2'-type macrophages. Tumor-associated macrophages (TAMs) typically display phenotypic features of both M1 and M2, and the population distribution is thought to be dynamic and evolves as the tumor progresses. However, our understanding of how TAMs impact the tumor microenvironment remains limited by the lack of appropriate 3D in vitro models that can capture cell-cell dynamics at high spatial and temporal resolution. Using our recently developed microphysiological 'tumor-on-a-chip' (TOC) device, we present here our findings on the impact of defined macrophage subsets on tumor behavior. The TOC device design contains three adjacent and connected chambers in which both the upper and lower chambers are loaded with tumor cells, whereas the central chamber contains a dynamic, perfused, living microvascular network. Introduction of human pancreatic or colorectal cancer cells together with M1-polarized macrophages significantly inhibited tumor growth and tumor-induced angiogenesis. Protein analysis and antibody-based neutralization studies confirmed that these effects were mediated through production of C-X-C motif chemokines (CXCL9), CXCL10 and CXCL11. By contrast, M2-macrophages mediated increased tumor cell migration into the vascularized chamber and did not inhibit tumor growth or angiogenesis. In fact, single-cell RNA sequencing showed that M2 macrophages further segregated endothelial cells into two distinct subsets, corresponding to static cells in vessels versus active cells involved in angiogenesis. The impact of M2 macrophages was mediated mostly by production of matrix metalloproteinase 7 and angiopoietin 2. In summary, our data demonstrate the utility of the TOC device to mechanistically probe biological questions in a 3D in vitro microenvironment.

Published

2020

32. The role of tumor neogenesis pipelines in tumor progression and their therapeutic potential

Author

Zhanqi Fu and Yuan Yuan

Subjects

neogenesis pipeline, therapeutic target, tumor, tumor invasion, tumor progression, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Abstract Pipeline formation between tumor cells and the tumor microenvironment (TME) is a key event leading to tumor progression. These pipelines include blood vessels, lymphatics, and membranous vessels (the former two can be collectively referred to as vasculature). Pipeline regeneration is a feature of all solid tumors; it delivers nutrients to tumors and promotes tumor invasion and metastasis such that cancer cells grow rapidly, escape unfavorable TME, spread to secondary sites, generate tumor drug resistance, and promote postoperative tumor recurrence. Novel tumor therapy strategies must exploit the molecular mechanisms underpinning these pipelines to facilitate more targeted drug therapies. In this review, pipeline generation, influencing factors, pipeline functions during tumor progression, and pipeline potential as drug targets are systematically summarized.

Published

2023

33. Radiation modulates expression and related activities of c-Met protein in oral tongue squamous cell carcinoma cell lines.

Author

Al-Jamaei, Aisha A. H., de Visscher, Jan G. A. M., Forouzanfar, Tymour, Brakenhoff, Ruud H., Leemans, C. René, Stikvoort, Arwen, Zandieh-Doulabi, Behrouz, and Helder, Marco N.

Subjects

*GENE expression, *SQUAMOUS cell carcinoma, *CELL lines, *GAMMA rays, *TONGUE

Abstract

Objectives: c-Met, a receptor tyrosine kinase, is involved in the growth, invasion and metastasis of a variety of cancers. In a set of cell lines from several solid tumors, a five-fold increase in c-Met expression after irradiation has been reported. This study aimed to assess if c-Met is likewise abundantly expressed in oral tongue squamous cell carcinoma (OTSCC) upon exposure to irradiation, followed by a Met-induced biological response. Materials and methods: Six OTSCC cell lines were exposed to gamma radiation doses of 2, 4, and 6 Gray. The changes in c-Met protein levels were assessed by western blot and flow cytometry. c-Met gene expression, cell migration, proliferation and cell cycle assays were performed as phenotypic readouts. Results: Irradiation resulted in upregulation of c.Met in all cell lines with different time kinetics. On average the cells displayed minimal c-Met expression on their surface ranging from 5 to 30% of total protein. Abrupt downregulation of c-Met surface expression occurred one hour after radiation but recovered 48 h post-radiation. Intracellularly, the highest level of expression was found on day 5 after radiation exposure. Irradiation induced aggressive invasive potential of the cells as determined in cell migration assays, particularly in cell lines with the highest c-Met expression. Conclusions: These results provide novel insights into both intracellular and extracellular dynamics of c-Met expression profiles upon irradiation of OTSCC cells in vitro. It might also suggest that radiation enhances cell migration, indicative of invasiveness, through c-Met up-regulation, at least for certain types of OTSCC cells. [ABSTRACT FROM AUTHOR]

Published

2023

34. LARGE-TIME BEHAVIORS OF SOLUTIONS TO CHEMOTAXIS TUMOR INVASION WITH QUASI-VARIATIONAL DIFFUSION.

Author

AKIO ITO

Subjects

DENSITY matrices, FUNCTION spaces, POROUS materials, EXTRACELLULAR matrix, TUMORS, CHEMOTAXIS

Abstract

A tumor invasion system, which is proposed in [2] as a modified tumor invasion system of Chaplain-Anderson type in [1], is considered in this paper. The system consists of three PDEs and one ODE. As a main characteristic, it is given that one of the PDEs has not only a quasi-variational structural degenerate diffusion but also a chemotaxis effect. Moreover, two kinds of quasi-variational structures are mixed in the diffusion. One is in the permeability of the tissue, which is regarded as a porous medium, and the other is in the constraint condition, which plays a role as double obstacles for the density of tumor cells. Actually, these quasi-variational structures depend on the density of extracellular matrix, which is also unknown in the system. The main purpose of this paper is to investigate the large-time behavior of a strong global-in-time solution to the tumor invasion system. In order to do this, it is a key point to find a suitable function space so that we can repeatedly apply the Ascoli-Arzelà compactness theorem for each component of the orbit associated with the strong global-in-time solution to the system under consideration. [ABSTRACT FROM AUTHOR]

Published

2023

35. Pro-Apoptotic Activity and Cell Cycle Arrest of Caulerpa sertularioides against SKLU-1 Cancer Cell in 2D and 3D Cultures.

Author

Agena, Rosette, Cortés-Sánchez, Alejandro De Jesús, Hernández-Sánchez, Humberto, Álvarez-Salas, Luis Marat, Martínez-Rodríguez, Oswaldo Pablo, García, Víctor Hugo Rosales, and Jaramillo Flores, María Eugenia

Subjects

*CANCER cell culture, *CELL cycle, *CAULERPA, *CANCER cells, *MITOCHONDRIAL membranes, *MEMBRANE potential

Abstract

Cancer is a disease with the highest mortality and morbidity rate worldwide. First-line drugs induce several side effects that drastically reduce the quality of life of people with this disease. Finding molecules to prevent it or generate less aggressiveness or no side effects is significant to counteract this problem. Therefore, this work searched for bioactive compounds of marine macroalgae as an alternative treatment. An 80% ethanol extract of dried Caulerpa sertularioides (CSE) was analyzed by HPLS-MS to identify the chemical components. CSE was utilized through a comparative 2D versus 3D culture model. Cisplatin (Cis) was used as a standard drug. The effects on cell viability, apoptosis, cell cycle, and tumor invasion were evaluated. The IC50 of CSE for the 2D model was 80.28 μg/mL versus 530 μg/mL for the 3D model after 24 h of treatment exposure. These results confirmed that the 3D model is more resistant to treatments and complex than the 2D model. CSE generated a loss of mitochondrial membrane potential, induced apoptosis by extrinsic and intrinsic pathways, upregulated caspases-3 and -7, and significantly decreased tumor invasion of a 3D SKLU-1 lung adenocarcinoma cell line. CSE generates biochemical and morphological changes in the plasma membrane and causes cell cycle arrest at the S and G2/M phases. These findings conclude that C. sertularioides is a potential candidate for alternative treatment against lung cancer. This work reinforced the use of complex models for drug screening and suggested using CSE's primary component, caulerpin, to determine its effect and mechanism of action on SKLU-1 in the future. A multi-approach with molecular and histological analysis and combination with first-line drugs must be included. [ABSTRACT FROM AUTHOR]

Published

2023

36. Prediction of nodal metastasis based on intraoral sonographic findings of the primary lesion in early-stage tongue cancer.

Author

Kawano, S., Hattori, T., Mikami, Y., Chikui, T., Kawazu, T., Sakamoto, T., Maruse, Y., Tanaka, S., Hamada, E., Hiwatashi, M., Shiraishi, Y., Oobu, K., Kiyoshima, T., and Nakamura, S.

Subjects

TONGUE cancer, RECEIVER operating characteristic curves, METASTASIS, LYMPHATIC metastasis

Abstract

The aim of this study was to clarify the correlation between imaging findings obtained using intraoral ultrasonography (US) and pathological findings of tongue cancers, and to examine the predictive value of intraoral US findings with respect to occult nodal metastasis. This was a retrospective study based on the medical records of 123 patients with T1–2N0 tongue cancer. The depth of invasion (DOI) on intraoral US was positively correlated with the pathological invasion depth (PID) (ρ = 0.7080, P < 0.0001). Receiver operating characteristic analyses revealed an optimal DOI cut-off value of 4.1 mm and optimal PID cut-off value of 3.9 mm to detect nodal metastasis. Regarding the margin shape of the primary tumour on intraoral US, the incidence of nodal metastasis was significantly higher for the permeated type than for the pressure type (P < 0.001) and wedge-shaped type (P = 0.002). Furthermore, tumours with peritumoural vascularity assessed by power Doppler US had a significantly higher incidence of nodal metastasis than tumours without (P = 0.003). The sensitivity, specificity, and accuracy of the permeated type to predict nodal metastasis was 53.6%, 95.8%, and 86.2%, respectively. These results suggest that intraoral US findings closely reflect pathological findings and could be useful to predict occult nodal metastasis in patients with early-stage tongue cancer. [ABSTRACT FROM AUTHOR]

Published

2023

37. Sequencing-based transcriptome analysis reveals diversification of immune response- and angiogenesis-related expression patterns of early-stage cervical carcinoma as compared with high-grade CIN

Author

Olga V. Kurmyshkina, Pavel V. Dobrynin, Pavel I. Kovchur, and Tatyana O. Volkova

Subjects

cervical cancer, transcriptome, tumor invasion, tumor microenvironment, preinvasive lesions, signaling pathways, Immunologic diseases. Allergy, RC581-607

Abstract

BackgroundMolecular diversity of virus-associated cervical cancer remains a relatively underexplored issue, and interrelations of immunologic and angiogenic features during the establishment of a particular landscape of the cervical cancer microenvironment are not well-characterized, especially for its earliest clinical stages, although this may provide insight into the mechanisms behind the differences in tumor aggressiveness, treatment responsiveness and prognosis. In this research, we were aimed at identifying transcriptomic landscapes of early-stage cervical carcinoma that differ substantially in their immune-related characteristics, patterns of signaling pathways and composition of the microenvironment in comparison with immediate precursor (intraepithelial) lesions.MethodsWe performed the Illumina platform-based RNA sequencing using a panel of fresh tissue samples that included human papillomavirus-positive cervical intraepithelial neoplastic lesions (CIN), invasive squamous carcinoma of the cervix of FIGO IA1-IIB stages, and morphologically normal epithelium. The derived transcriptomic profiles were bioinformatically analyzed and compared by patterns of signaling pathway activation, distribution of tumor-infiltrating cell populations, and genomic regions involved.ResultAccording to hierarchical cluster analysis of the whole-transcriptome profiles, tissue samples were distributed between three groups, or gene expression patterns (the one comprising most pre-cancer cases and the other two encompassing mostly early-stage invasive cancer cases). Differentially expressed genes were retrieved in each intergroup pairwise comparison followed by Gene Ontology analysis. Gene set enrichment analysis of the two groups of tumor samples in comparison with the CIN group identified substantial differences in immunological and angiogenic properties between tumorous groups suggesting the development of different molecular phenotypes. Cell composition analysis confirmed the diverse changes in the abundancies of immune and non-immune populations and, accordingly, different impacts of the immune and stromal compartments on the tumor microenvironment in these two groups of tumors compared to CIN. Positional gene expression analysis demonstrated that the identified transcriptomic differences were linked to different chromosomal regions and co-localized with particular gene families implicated in immune regulation, inflammation, cell differentiation, and tumor invasion.ConclusionsOverall, detection of different transcriptomic patterns of invasive cervical carcinoma at its earliest stages supports the diverse impacts of immune response- and angiogenesis-related mechanisms on the onset of tumor invasion and progression. This may provide new options for broadening the applicability and increasing the efficiency of target anti-angiogenic and immune-based therapy of virus-associated cervical carcinoma.

Published

2023

38. Tumor lesion detection in patients with cervical cancer by indocyanine green near-infrared imaging.

Author

Li, Pengfei, Liu, Jiaqi, He, Kunshan, Gong, Shipeng, Chi, Chongwei, Liu, Pan, Su, Guidong, Li, Weili, Duan, Hui, Liu, Ping, Tian, Jie, and Chen, Chunlin

Subjects

*CERVICAL cancer, *CANCER invasiveness, *FLUORESCENCE, *INDOCYANINE green, *HYSTERECTOMY

Abstract

Purpose: To investigate the feasibility and accuracy of near-infrared fluorescence (NIRF) imaging for detecting the extent of tumor invasion in cervical cancer using indocyanine green (ICG). Methods: We enrolled 51 patients who were diagnosed with cervical cancer with FIGO stage IB1-IIA2 disease. Patients were administered indocyanine green (ICG) at a dose of 5 mg/kg 24 h prior to surgery. A customized near-infrared fluorescence (NIRF) imaging system was used to identify the extent of tumor invasion when radical hysterectomy specimens were harvested. The relationship between tumor fluorescence intensity and clinicopathological characteristics was analyzed. Results: Of the 51 enrolled patients, 3 patients did not have residual tumors after cervical conization, and tumor lesions were identified by NIRF imaging in all the remaining 48 patients. The results of NIRF imaging were in agreement with the postoperative pathological findings in 95.8% of the patients with stromal invasion, 100% of those with surgical margin invasion, 100% of those with parametrial tumor involvement, and 100% of patients with uterine corpus invasion. The mean signal-to-background ratio (SBR) of the cervical tumors was 2.91 ± 1.64, and the SBR was independent of clinicopathological characteristics. Fluorescence microscopy confirmed that ICG fluorescence was present in the tumor nests. Conclusions: NIRF imaging enables objective, accurate, and safe identification of tumor invasion during cervical cancer surgery. Clinical trial registration: ClinicalTrials.gov NCT04224467. [ABSTRACT FROM AUTHOR]

Published

2023

39. Autophagy-Related MicroRNA: Tumor miR-125b and Thyroid Cancers.

Author

Spirina, Liudmila V., Kovaleva, Irina V., Chizhevskaya, Svetlana Yu., Chebodaeva, Anastasiya V., and Tarasenko, Nataliya V.

Subjects

*THYROID cancer, *THYROID gland tumors, *MICRORNA, *BENIGN tumors, *GENE expression, *THYROTROPIN receptors

Abstract

Background: Autophagy is a stress response mechanism that causes cellular components to degrade. Its defects were associated with multiple pathologies, including cancers. Thyroid cancer is known to be the most prevalent form of malignant neoplasm among endocrine tumors. The aim of the study was to seek and comprehensively explore the role of autophagy related genes and proteins play in thyroid cancers through bioinformatics analysis with their detection in the tissue samples. Methods: Bioinformatics analysis was performed to investigate autophagy related proteins and genes involvement in thyroid cancer progression. The experimental verification was done in cancer samples of one hundred and three patients with thyroid pathology included in the study. The miR-125blevel was detected by PCR in real time. Results and discussion: The bioinformatics analysis verified the miR-125b as a regulatory mechanism in autophagy. Its expression in patients with PTC was reduced by 6.75 times in cancer patients compared to the patients with benign tumors. The BRAFV600E mutations were associated with a decrease in hsa-miR-125b expression by 12.67 times compared to tumors with the wild-type gene. Conclusions: Our findings revealed involvement of the autophagy related proteins in cancer progression. The significant mechanisms of regulation are non-coding RNA sequences implicated in a variety of oncogenic processes. We found that miR-125b is a potential maker in thyroid cancer invasion, BRAV600E mutational status and risk of recurrence. [ABSTRACT FROM AUTHOR]

Published

2023

40. Mesenchymal Stem-Like Cells Derived from the Ventricle More Effectively Enhance Invasiveness of Glioblastoma Than Those Derived from the Tumor.

Author

Junseong Park, Dongkyu Lee, Jin-Kyoung Shim, Seon-Jin Yoon, Ju Hyung Moon, Eui Hyun Kim, Jong Hee Chang, Su-Jae Lee, and Seok-Gu Kang

Abstract

Purpose: Glioblastoma (GBM) is one of the most lethal human tumors with a highly infiltrative phenotype. Our previous studies showed that GBM originates in the subventricular zone, and that tumor-derived mesenchymal stem-like cells (tMSLCs) promote the invasiveness of GBM tumorspheres (TSs). Here, we extend these studies in terms of ventricles using several types of GBM patient-derived cells. Materials and Methods: The invasiveness of GBM TSs and ventricle spheres (VSs) were quantified via collagen-based 3D invasion assays. Gene expression profiles were obtained from microarray data. A mouse orthotopic xenograft model was used for in vivo experiments. Results: After molecular and functional characterization of ventricle-derived mesenchymal stem-like cells (vMSLCs), we investigated the effects of these cells on the invasiveness of GBM TSs. We found that vMSLC-conditioned media (CM) significantly accelerated the invasiveness of GBM TSs and VSs, compared to the control and even tMSLC-CM. Transcriptome analyses revealed that vMSLC secreted significantly higher levels of several invasiveness-associated cytokines. Moreover, differentially expressed genes between vMSLCs and tMSLCs were enriched for migration, adhesion, and chemotaxis-related gene sets, providing a mechanistic basis for vMSLC-induced invasion of GBM TSs. In vivo experiments using a mouse orthotopic xenograft model confirmed vMSLC-induced increases in the invasiveness of GBM TSs. Conclusion: Although vMSLCs are non-tumorigenic, this study adds to our understanding of how GBM cells acquire infiltrative features by vMSLCs, which are present in the region where GBM genesis originates. [ABSTRACT FROM AUTHOR]

Published

2023

41. Par6 Enhances Glioma Invasion by Activating MEK/ERK Pathway Through a LIN28/let-7d Positive Feedback Loop.

Author

Huang, Yishan, Liu, Pei, Luo, Juanjuan, Zhu, Chenchen, Lu, Chunjiao, Zhao, Na, Zhao, Weijiang, Cui, Wei, and Yang, Xiaojun

Abstract

The invasion of glioblastoma usually results in the recurrence and poor prognosis in patients with glioma. However, the underlying mechanisms involved in glioma invasion remains undefined. In this study, immunohistochemistry analyses of glioma specimens demonstrated that high expression of Par6 was positively correlated with malignancy and poor prognosis of patients with glioma. Par6-overexpressing glioma cells showed much more fibroblast-like morphology, suggesting that regulation of Par6 expression might be associated with tumor invasion in glioma cells. Further study indicated that Par6 overexpression subsequently increased CD44 and N-cadherin expression to enhance glioma invasion through activating MEK/ERK/STAT3 pathway, in vivo and in vitro. Moreover, we found that LIN28/let-7d axis was involved in this process via a positive feedback loop, suggesting that MEK/ERK/LIN28/let-7d/STAT3 cascade might be essential for Par6-mediated glioma invasion. Therefore, these data highlight the roles of Par6 in glioma invasion, and Par6 may serve as a potential therapeutic target for patients with glioma. [ABSTRACT FROM AUTHOR]

Published

2023

42. Brefeldin A-ester targets breast cancer cell proliferation, invasion and migration through targeting STAT3 protein expression.

Author

Ding, Haolong, Ouyang, Qianwen, Jiang, Xiaochen, and Wu, Xiaobo

Abstract

Brefeldin A-ester (BAE) treatment significantly reduced SkBr3 and MDA-MB-231 cell proliferation in a concentration-dependent manner. It inhibited colony formation in SkBr3 and MDA-MB-231 cells significantly compared to the control cells. In BAE-treated MDA-MB-231 cells, migration and invasion potential showed a remarkable decrease after 72 h of incubation. Treatment with 12 µM of BAE led to a considerable suppression in MMP-2 and MMP-9 protein levels. The apoptotic cell fraction significantly increased in MDA-MB-231 cells at 72 h in comparison to the control cells. Treatment of MDA-MB-231 cells with BAE also caused a prominent suppression in expression of activated STAT3. Molecular docking studies revealed that BAE interacts with glutamic acid and tryptophan amino acids residues of STAT3 protein (4ZIA) through conventional H-bonding with binding affinity of − 9.6 kcal/mol at zero rmsd. Therefore, BAE treatment inhibits growth of breast cancer cells by targeting STAT3 phosphorylation and activation of apoptosis. BAE could have potential as a lead in the development of therapeutic agents for breast cancer. [Display omitted] • Brefeldin A-ester significantly reduced cell proliferation and migration potential. • BAE treatment led to a remarkable suppression in MMP-2 and MMP-9 protein levels. • BAE treatment caused suppression in expression of activated STAT3 expression. • BAE interacts with glutamic acid and tryptophan amino acids residues of STAT3 protein. [ABSTRACT FROM AUTHOR]

Published

2023

43. Intercellular Molecular Crosstalk Networks within Invasive and Immunosuppressive Tumor Microenvironment Subtypes Associated with Clinical Outcomes in Four Cancer Types

Author

Jinfen Wei, Wenqi Yu, Lei Wu, Zixi Chen, Guanda Huang, Meiling Hu, and Hongli Du

Subjects

tumor microenvironment subtypes, tumor invasion, single-cell RNA-seq, immunosuppressive, cell-cell interaction, COL1A1-SDC1, Biology (General), QH301-705.5

Abstract

Heterogeneity is a critical basis for understanding how the tumor microenvironment (TME) contributes to tumor progression. However, an understanding of the specific characteristics and functions of TME subtypes (subTMEs) in the progression of cancer is required for further investigations into single-cell resolutions. Here, we analyzed single-cell RNA sequencing data of 250 clinical samples with more than 200,000 cells analyzed in each cancer datum. Based on the construction of an intercellular infiltration model and unsupervised clustering analysis, four, three, three, and four subTMEs were revealed in breast, colorectal, esophageal, and pancreatic cancer, respectively. Among the subTMEs, the immune-suppressive subTME (subTME-IS) and matrix remodeling with malignant cells subTME (subTME-MRM) were highly enriched in tumors, whereas the immune cell infiltration subTME (subTME-ICI) and precancerous state of epithelial cells subTME (subTME-PSE) were less in tumors, compared with paracancerous tissues. We detected and compared genes encoding cytokines, chemokines, cytotoxic mediators, PD1, and PD-L1. The results showed that these genes were specifically overexpressed in different cell types, and, compared with normal tissues, they were upregulated in tumor-derived cells. In addition, compared with other subTMEs, the expression levels of PDCD1 and TGFB1 were higher in subTME-IS. The Cox proportional risk regression model was further constructed to identify possible prognostic markers in each subTME across four cancer types. Cell-cell interaction analysis revealed the distinguishing features in molecular pairs among different subTMEs. Notably, ligand–receptor gene pairs, including COL1A1-SDC1, COL6A2-SDC1, COL6A3-SDC1, and COL4A1-ITGA2 between stromal and tumor cells, associated with tumor invasion phenotypes, poor patient prognoses, and tumor advanced progression, were revealed in subTME-MRM. C5AR1-RPS19, LGALS9-HAVCR2, and SPP1-PTGER4 between macrophages and CD8+ T cells, associated with CD8+ T-cell dysfunction, immunosuppressive status, and tumor advanced progression, were revealed in subTME-IS. The spatial co-location information of cellular and molecular interactions was further verified by spatial transcriptome data from colorectal cancer clinical samples. Overall, our study revealed the heterogeneity within the TME, highlighting the potential pro-invasion and pro-immunosuppressive functions and cellular infiltration characteristics of specific subTMEs, and also identified the key cellular and molecular interactions that might be associated with the survival, invasion, immune escape, and classification of cancer patients across four cancer types.

Published

2023

44. Downregulation of ITGβ3 in colon adenocarcinoma reveals poor prognosis by affecting genome stability, cell cycle, and the tumor immune microenvironment.

Author

Lei Zhao, Xiaoting Ma, Guangxin Li, Pengfei Zhao, Haishan Lin, Yingjie Ma, Huihui Li, and Jing Yu

Subjects

CELL cycle, GENE expression, TUMOR microenvironment, GENE regulatory networks, DOWNREGULATION

Abstract

Introduction: Abnormal expression of integrin subunit beta 3 (ITGβ3), a geneencoding protein, is related to the occurrence and development of cancers; however, the biological role of ITGb3 in colon adenocarcinoma (COAD) remains unclear. Methods: We used the Cancer Genome Atlas database to obtain the clinical data of patients with COAD, analyzed the mRNA gene clusters related to ITGβ3, and analyzed the interaction signal pathway and interaction protein network of the differentially expressed gene clusters. The results showed that ITGβ3 expression in COAD tumor tissues was significantly downregulated compared with that in paracancerous tissues. Low ITGβ3 expression in tumor tissues is associated with poor overall survival of patients with COAD. In multivariate analysis, stage IV and ITGβ3 low expression were independent prognostic factors. Gene Ontology analysis showed that differentially expressed genes (DEGs) were significantly enriched in leukocyte migration, cell adhesion, and extracellular matrix (ECM) organization. Kyoto Encyclopedia of Genes and Genomes analysis revealed that the DEGs were mainly enriched in ECM-receptor interactions, focal adhesion, and the PI3K-Akt signaling pathway. Protein-protein interaction network analysis revealed the hub and seed genes of the key modules related to ITGβ3. Finally, we analyzed the correlation between TGβ3 and immune-related genes and found that ITGβ3 expression was significantly correlated with tumor purity and infiltration level of dominant immune cells. Discussion: These findings indicate that ITGβ3 downregulation in COAD may profoundly affect genome stability and multiple steps of the cell cycle, alter the tumor immune microenvironment, and be related to the prognosis of patients with COAD. [ABSTRACT FROM AUTHOR]

Published

2023

45. The miRNA-185-5p/STIM1 Axis Regulates the Invasiveness of Nasopharyngeal Carcinoma Cell Lines by Modulating EGFR Activation-Stimulated Switch from E- to N-Cadherin.

Author

Luo, Yue, Ye, Jiaxiang, Deng, Yayan, Huang, Yujuan, Liu, Xue, He, Qian, Chen, Yong, Li, Qiuyun, Lin, Yan, Liang, Rong, Li, Yongqiang, Wei, Jiazhang, and Zhang, Jinyan

Subjects

*NASOPHARYNX cancer, *CELL lines, *EPIDERMAL growth factor receptors, *CADHERINS, *CELL migration, *LYMPHATIC metastasis

Abstract

Distant metastasis remains the primary cause of treatment failure and suggests a poor prognosis in nasopharyngeal carcinoma (NPC). Epithelial-mesenchymal transition (EMT) is a critical cellular process for initiating a tumor invasion and remote metastasis. Our previous study showed that the blockage of the stromal interaction molecule 1 (STIM1)-mediated Ca2+ signaling blunts the Epstein–Barr virus (EBV)-promoted cell migration and inhibits the dissemination and lymphatic metastasis of NPC cells. However, the upstream signaling pathway that regulates the STIM1 expression remains unknown. In this follow-up study, we demonstrated that the miRNA-185-5p/STIM1 axis is implicated in the regulation of the metastatic potential of 5–8F cells, a highly invasive NPC cell line. We demonstrate that the knockdown of STIM1 attenuates the migration ability of 5–8F cells by inhibiting the epidermal growth factor receptor (EGFR) phosphorylation-induced switch from E- to N-cadherin in vitro. In addition, the STIM1 knockdown inhibited the locoregional lymphatic invasion of the 5–8F cells in mice. Furthermore, we identified miRNA-185-5p as an upstream regulator that negatively regulates the expression of STIM1. Our findings suggest that the miRNA-185-5p/STIM1 axis regulates the invasiveness of NPC cell lines by affecting the EGFR activation-modulated cell adhesiveness. The miRNA-185-5p/STIM1 axis may serve as a potentially effective therapeutic target for the treatment of NPC. [ABSTRACT FROM AUTHOR]

Published

2023

46. The role of tumor neogenesis pipelines in tumor progression and their therapeutic potential.

Author

Fu, Zhanqi and Yuan, Yuan

Subjects

CANCER invasiveness, METASTASIS, DRUG target, DRUG resistance, DISEASE relapse

Abstract

Pipeline formation between tumor cells and the tumor microenvironment (TME) is a key event leading to tumor progression. These pipelines include blood vessels, lymphatics, and membranous vessels (the former two can be collectively referred to as vasculature). Pipeline regeneration is a feature of all solid tumors; it delivers nutrients to tumors and promotes tumor invasion and metastasis such that cancer cells grow rapidly, escape unfavorable TME, spread to secondary sites, generate tumor drug resistance, and promote postoperative tumor recurrence. Novel tumor therapy strategies must exploit the molecular mechanisms underpinning these pipelines to facilitate more targeted drug therapies. In this review, pipeline generation, influencing factors, pipeline functions during tumor progression, and pipeline potential as drug targets are systematically summarized. [ABSTRACT FROM AUTHOR]

Published

2023

47. Ginkgo biloba Golden Leaf Extract (GGLE) Inhibits Melanoma Cell Invasion and Angiogenesis Through Inhibition of Angiogenin.

Author

Chen, Ping, Wang, Tao, and Chen, Qi

Abstract

The popular dietary supplements of Ginkgo biloba (Ginkgo) products have been reported to have anti-cancer activities in multiple cellular and animal studies, with the benefits yet to be proven with clinical trials. The mechanisms of action are not clear, forming a barrier to investigation in Gingko-specific benefits to cancer patients, especially when combined with other therapies. Here we reported on the discovery of a novel mechanism by which a Ginkgo golden leaf extract (GGLE) inhibited melanoma cell invasion and angiogenesis. GGLE did not inhibit melanoma cells via direct cytotoxicity. Instead, GGLE significantly inhibited total RNase activities in melanoma cells under both normoxia and hypoxia conditions. The RNase angiogenin was induced twofolds by hypoxia, and the induction was significantly suppressed by GGLE treatment in a dose dependent manner. As a result of angiogenin inhibition, GGLE inhibited melanoma cell migration and invasion in a dose dependent manner. Conditioned media from melanoma cell culture sufficiently induced in vitro angiogenesis in human endothelial cells, whereas the conditioned media of GGLE-treated melanoma cells significantly inhibited this angiogenetic activity. This was accompanied with markedly reduced angiogenin concentrations in the GGLE-treated melanoma cell conditioned media. We concluded that, instead of direct cytotoxicity, GGLE inhibited angiogenin synthesis and secretion by melanoma cells, resulting in inhibition of tumor cell invasion and tumor-induced angiogenesis. This new mechanism opens the door for investigation in GGLE influencing tumor microenvironment, and warrants further investigation and validation in vivo. [ABSTRACT FROM AUTHOR]

Published

2023

48. Halofuginone inhibits tumor migration and invasion by affecting cancer-associated fibroblasts in oral squamous cell carcinoma.

Author

Danni Wang, Mei Tian, Yong Fu, Yawei Sun, Liang Ding, Xiaoxin Zhang, Yue Jing, Guowen Sun, Yanhong Ni, and Yuxian Song

Subjects

FIBROBLASTS, SQUAMOUS cell carcinoma, LYMPHATIC metastasis, TUMOR growth, TONGUE cancer, CELL migration

Abstract

Oral squamous cell carcinoma (OSCC) is the most common malignant tumor in the oral and maxillofacial regions, with a high rate of metastasis. Cancerassociated fibroblasts (CAFs) play critical roles in tumor growth, metastasis and invasion, making them attractive therapeutic targets for cancer treatment. As an old anti-coccidiosis drug for poultry, Halofuginone (HF) has also been reported to possess anti-fibrosis and anti-cancer activities in the recent decades. However, whether it works by targeting CAFs in OSCC, and the mechanisms involved remain unclear. In the present study, we observed HF dose-dependently inhibits OSCC-derived CAF viability and proliferation. Meanwhile, HF decreased the expressions of α-SMA, FSP-1 and PDGFRβ, markers of the malignant phenotype of CAFs, both at mRNA and protein levels. Furthermore, functional studies demonstrated that HF dramatically attenuates the promotion effect of CAFs on OSCC cell migration and invasion. Mechanistically, the inhibition of MMP2 secretion and the upstream TGF-ß/Smad2/3 signaling pathway played an important role in these processes. In the orthotopic transplanted tongue carcinoma in mice model, we confirmed that HF administration inhibited tumor growth and lymph node metastasis (LNM) with reduced CAF population, MMP2 expression and collagen deposition in tumor. Altogether, these results indicate that HF can inhibit the migration and invasion of OSCC by targeting CAFs, which will provide new ideas for the treatment of OSCC. [ABSTRACT FROM AUTHOR]

Published

2022

49. TFEB triggers a matrix degradation and invasion program in triple-negative breast cancer cells upon mTORC1 repression.

Author

Remy D, Antoine-Bally S, de Toqueville S, Jolly C, Macé AS, Champenois G, Nemati F, Brito I, Raynal V, Priya A, Berlioz A, Dahmani A, Nicolas A, Meseure D, Marangoni E, and Chavrier P

Abstract

The phosphatidylinositol 3-kinase (PI3K)/AKT/mammalian target of rapamycin (mTOR) pathway is frequently hyperactivated in triple-negative breast cancers (TNBCs) associated with poor prognosis and is a therapeutic target in breast cancer management. Here, we describe the effects of repression of mTOR-containing complex 1 (mTORC1) through knockdown of several key mTORC1 components or with mTOR inhibitors used in cancer therapy. mTORC1 repression results in an ∼10-fold increase in extracellular matrix proteolytic degradation. Repression in several TNBC models, including in patient-derived xenografts (PDXs), induces nuclear translocation of transcription factor EB (TFEB), which drives a transcriptional program that controls endolysosome function and exocytosis. This response triggers a surge in endolysosomal recycling and the surface exposure of membrane type 1 matrix metalloproteinase (MT1-MMP) associated with invadopodia hyperfunctionality. Furthermore, repression of mTORC1 results in a basal-like breast cancer cell phenotype and disruption of ductal carcinoma in situ (DCIS)-like organization in a tumor xenograft model. Altogether, our data call for revaluation of mTOR inhibitors in breast cancer therapy., Competing Interests: Declaration of interests The authors declare no competing interests., (Copyright © 2024 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2024

50. Characterization of microRNA-223-3p as a novel promoter of cell proliferation and invasion in papillary thyroid carcinoma.

Author

Pan X, Liu J, Zhang Y, Sun C, Li Y, and Guo H

Abstract

Papillary thyroid carcinoma (PTC), the most common thyroid cancer, has been linked to various molecular alterations. This study focuses on microRNA-223-3p, whose upregulated expression in PTC tissues appears to enhance tumor growth and cellular dysfunctions. Our findings demonstrate that microRNA-223-3p significantly promotes cell proliferation, invasion, and migration and induces epithelial-mesenchymal transition (EMT). Additionally, neurofibromatosis type 2 (NF2) is identified as a direct target, suggesting that microRNA-223-3p could be crucial in PTC pathogenesis and may offer a target for therapeutic intervention., Competing Interests: The authors declare no conflicts of interest., (© 2024 The Author(s). Journal of Cell Communication and Signaling published by John Wiley & Sons Ltd.)

Published

2024