scholarly journals Modeling the stem cell hypothesis: Investigating the effects of cancer stem cells and TGF−β on tumor growth

2019 ◽  
Vol 16 (6) ◽  
pp. 7177-7194
Author(s):  
Samantha L Elliott ◽  
◽  
Emek Kose ◽  
Allison L Lewis ◽  
Anna E Steinfeld ◽  
...  
2015 ◽  
Author(s):  
Benjamin Werner ◽  
Jacob G Scott ◽  
Andrea Sottoriva ◽  
Alexander RA Anderson ◽  
Arne Traulsen ◽  
...  

Cancers arise as a result of genetic and epigenetic alterations. These accumulate in cells during the processes of tissue development, homeostasis and repair. Many tumor types are hierarchically organized and driven by a sub-population of cells often called cancer stem cells. Cancer stem cells are uniquely capable of recapitulating the tumor and can be highly resistant to radio- and chemotherapy treatment. We investigate tumor growth patterns from a theoretical standpoint and show how significant changes in pre- and post-therapy tumor dynamics are tied to the dynamics of cancer stem cells. We identify two characteristic growth regimes of a tumor population that can be leveraged to estimate cancer stem cell fractions in vivo using simple linear regression. Our method is a mathematically exact result, parameter free and does not require any microscopic knowledge of the tumor properties. A more accurate quantification of the direct link between the sub-population driving tumor growth and treatment response promises new ways to individualize treatment strategies.


2021 ◽  
Vol 21 (1) ◽  
Author(s):  
Yantao Liu ◽  
Yuping Yang ◽  
Lingli Zhang ◽  
Jiaqiang Lin ◽  
Bin Li ◽  
...  

Abstract Background Non-small cell lung cancer (NSCLC) is a major cause of cancer-related death worldwide, and cancer stem cell is responsible for the poor clinical outcome of NSCLC. Previous reports indicated that long noncoding RNAs (lncRNAs) play important roles in maintaining cancer stemness, however, the underlying mechanisms remain unclear. This study investigates the role of ASAP1 Intronic Transcript 1 (ASAP1-IT1) in cancer cell stemness of NSCLC. Methods The expression of ASAP1-IT1, microRNA-509-3p (miR-509-3p) and apoptosis-/stemness-related genes was analyzed by qRT-PCR in NSCLC tissues, cancer cells and spheres of cancer stem cells. Knockdown of ASAP1-IT1 or overexpression of miR-509-3p in NSCLC cells by infection or transfection of respective plasmids. Sphere formation and colony formation were used to detect NSCLC stem cell-like properties and tumor growth in vitro. Luciferase reporter assays, RNA immunoprecitation (RIP) and qRT-PCR assays were used to analyze the interaction between lncRNA and miRNA. The expression of expression of regulated genes of ASAP1-IT1/miR-509-3p axis was evaluated by qRT-PCR and Western blot. The NSCLC xenograft mouse model was used to validate the role of ASAP1-IT1 in NSCLC stemness and tumor growth in vivo. Results ASAP1-IT1 was up-regulated in NSCLC tissues, cancer cells, and in spheres of A549-derived cancer stem cells. Downregulation of ASAP1-IT1 or overexpression of miR-509-3p significantly decreased cell colony formation and stem cell-like properties of A549-dereived stem cells with decreased expression of stem cell biomarkers SOX2, CD34, and CD133, and suppressing the expression of cell growth-related genes, Cyclin A1, Cyclin B1, and PCNA. Furthermore, knockdown of ASAP1-IT1 or overexpression of miR-509-3p repressed tumor growth in nude mice via reducing expression of tumorigenic genes. ASAP1-IT1 was found to interact with miR-509-3p. Moreover, overexpression of ASAP1-IT1 blocked the inhibition by miR-509-3p on stem cell-like properties and cell growth of A549-dereived stem cells both in vitro and in vivo. Finally, the level of YAP1 was regulated by ASAP1-IT1 and miR-509-3p. Conclusions YAP1-involved ASAP1-IT1/miR-509-3p axis promoted NSCLC progression by regulating cancer cell stemness, and targeting this signaling pathway could be is a promising therapeutic strategy to overcome NSCLC stemness.


Cancers ◽  
2020 ◽  
Vol 12 (9) ◽  
pp. 2590
Author(s):  
Rodolfo Molina-Peña ◽  
Juan Carlos Tudon-Martinez ◽  
Osvaldo Aquines-Gutiérrez

The cancer stem cell hypothesis states that tumors are maintained by a small subpopulation of stem-like cells, often called cancer stem cells (CSCs) or tumor initiating cells. CSCs can self-renew and give rise to more differentiated cells, which comprise the bulk of the tumor. In addition, CSCs are resistant to conventional therapy, which suggests that they are responsible for tumor relapse. This has led researchers to increase efforts to develop directed therapies against CSCs. However, some experiments in mice have shown that the elimination of CSCs might not ensure tumor eradication. This may be due to different events, such as residual CSCs after treatment, the plasticity of cells within the tumor, the presence of different CSCs having their own hierarchy within the same tumor, and the ability of more differentiated cells to maintain the disease, among others. Trying to decipher this complexity may benefit from dissecting the whole in its parts. Here, we hypothesize that tumor relapse after the selective targeting of CSCs may be due to intermediate progenitor (P) cells that can maintain the tumor volume. In order to support the hypothesis, we implemented a mathematical model derived using pseudo-reactions representing the events of each cell subpopulation within the tumor. We aimed to test if a minimal unidirectional hierarchical model consisting of CSCs, P, and terminally differentiated (D) cells could be adjusted to experimental data for selective CSC targeting. We further evaluated therapies ranging from nonselective to specifically directed and combination therapy. We found that selective killing of the CSC compartment has a delaying effect on the overall exponential tumor growth, but was not able to eliminate the disease. We show that therapy that targets both CSCs and intermediate progenitor (P) cells with a sufficient capacity to proliferate and differentiate could represent a more efficient treatment option for tumor depletion. Testing this hypothesis in vivo may allow us to discriminate within the array of possibilities of tumor relapse, and further open the idea of combination therapy against different subpopulations of tumor cells instead of segregating CSCs and bulk tumor cells.


2021 ◽  
Author(s):  
Yantao Liu ◽  
Yuping Yang ◽  
Lingli Zhang ◽  
Jiaqiang Lin ◽  
Bin Li ◽  
...  

Abstract Background: Non-small cell lung cancer (NSCLC) is a major cause of cancer-related death worldwide, and cancer stem cell is mainly responsible for the poor clinical outcome of NSCLC. Although previous reports indicated long noncoding RNAs (lncRNAs) play important roles in cancer stemness maintain, the underlying causes mechanisms remain is still mysterious. Our study aims to investigate the role of ASAP1 Intronic Transcript 1 (ASAP1-IT1) in cancer cell stemness of NSCLC. Methods: qRT-PCR analysis the expression of ASAP1-IT1 and microRNA-509-3p (miR-509-3p) in NSCLC tissues, cancer cells and spheres of cancer cells-derived cancer stem cells. Knockdown of ASAP1-IT1 or overexpression of miR-509-3p in NSCLC cells by infection or transfection. Sphere formation and colony formation detects NSCLC stem cell-like properties and tumor growth in vitro. Luciferase reporter assays, RNA immunoprecitation (RIP) and qRT-PCR assays analyzed the interaction between lncRNA and miRNA, qRT-PCR and Western blot detect ASAP1-IT1/miR-509-3p axis's regulation on the expression of regulated genes. NSCLC xenograft mice model validates ASAP1-IT1 role in NSCLC stemness and tumor growth in vivo. Results: ASAP1-IT1 was up-regulated in NSCLC tissues, cancer cells, and in spheres of A549-derived cancer stem cells. Downregulated ASAP1-IT1 or miR-509-3p significantly decreased cell colony formation and stem cell-like properties of A549-dereived stem cells with decreased expression of stem cell biomarkers SOX2, CD34, and CD133, and suppressing the expression of cell growth-related genes, Cyclin A1, Cyclin B1, and PCNA. Furthermore, knockdown of ASAP1-IT1 or overexpression of miR-509-3p repressed tumor growth in nude mice via reducing expression of tumorigenic genes. ASAP1-IT1 was found to interact with miR-509-3p. Moreover, overexpression of ASAP1-IT1 blocked miR-509-3p mediated regulation of stem cell-like properties, cell growth, and cell apoptosis of A549-dereived stem cells both in vitro and in vivo. Finally, the level of YAP1 was regulated by ASAP1-IT1 and miR-509-3p.Conclusions: YAP1-involved ASAP1-IT1/miR-509-3p axis promoted NSCLC progression by regulating cancer cell stemness,and targeting related signaling is a promising therapeutic strategy to overcome NSCLC stemness.


2021 ◽  
Author(s):  
Yantao Liu ◽  
Yuping Yang ◽  
Lingli Zhang ◽  
Jiaqiang Lin ◽  
Bin Li ◽  
...  

Abstract Background: Non-small cell lung cancer (NSCLC) is a major cause of cancer-related death worldwide, and cancer stem cell is mainly responsible for the poor clinical outcome of NSCLC. Although previous reports indicated long noncoding RNAs (lncRNAs) play important roles in cancer stemness maintain, the underlying causes mechanisms remain is still mysterious. Our study aims to investigate the role of ASAP1 Intronic Transcript 1 (ASAP1-IT1) in cancer cell stemness of NSCLC. Methods: qRT-PCR analysis the expression of ASAP1-IT1 and microRNA-509-3p (miR-509-3p) in NSCLC tissues, cancer cells and spheres of cancer cells-derived cancer stem cells. Knockdown of ASAP1-IT1 or overexpression of miR-509-3p in NSCLC cells by infection or transfection. Sphere formation and colony formation detects NSCLC stem cell-like properties and tumor growth in vitro. Luciferase reporter assays, RNA immunoprecitation (RIP) and qRT-PCR assays analyzed the interaction between lncRNA and miRNA, qRT-PCR and Western blot detect ASAP1-IT1/miR-509-3p axis's regulation on the expression of regulated genes. NSCLC xenograft mice model validates ASAP1-IT1 role in NSCLC stemness and tumor growth in vivo. Results: ASAP1-IT1 was up-regulated in NSCLC tissues, cancer cells, and in spheres of A549-derived cancer stem cells. Downregulated ASAP1-IT1 or miR-509-3p significantly decreased cell colony formation and stem cell-like properties of A549-dereived stem cells with decreased expression of stem cell biomarkers SOX2, CD34, and CD133, and suppressing the expression of cell growth-related genes, Cyclin A1, Cyclin B1, and PCNA. Furthermore, knockdown of ASAP1-IT1 or overexpression of miR-509-3p repressed tumor growth in nude mice via reducing expression of tumorigenic genes. ASAP1-IT1 was found to interact with miR-509-3p. Moreover, overexpression of ASAP1-IT1 blocked miR-509-3p mediated regulation of stem cell-like properties, cell growth, and cell apoptosis of A549-dereived stem cells both in vitro and in vivo. Finally, the level of YAP1 was regulated by ASAP1-IT1 and miR-509-3p.Conclusions: YAP1-involved ASAP1-IT1/miR-509-3p axis promoted NSCLC progression by regulating cancer cell stemness,and targeting related signaling is a promising therapeutic strategy to overcome NSCLC stemness.


2019 ◽  
Vol 14 (5) ◽  
pp. 428-436 ◽  
Author(s):  
Gabriele D. Bigoni-Ordóñez ◽  
Daniel Czarnowski ◽  
Tyler Parsons ◽  
Gerard J. Madlambayan ◽  
Luis G. Villa-Diaz

Cancer is a highly prevalent and potentially terminal disease that affects millions of individuals worldwide. Here, we review the literature exploring the intricacies of stem cells bearing tumorigenic characteristics and collect evidence demonstrating the importance of integrin α6 (ITGA6, also known as CD49f) in cancer stem cell (CSC) activity. ITGA6 is commonly used to identify CSC populations in various tissues and plays an important role sustaining the self-renewal of CSCs by interconnecting them with the tumorigenic microenvironment.


Author(s):  
Nese Unver

: Cancer stem cells represent a rare subpopulation of cancer cells carrying self-renewal and differentiation features in the multi-step tumorigenesis, tumor recurrence and metastasis. Pro-inflammatory stress is highly associated with cancer stemness via induction of cytokines, tumor-promoting immune cells and cancer stemness-related signaling pathways. This review summarizes the major pro-inflammatory factors affecting cancer stem cell characteristics and the critical immunotherapeutic strategies to eliminate cancer stem cells.


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