Yih-Fung Chen scite author profile

Store-operated Ca 2+ entry (SOCE) is the principal Ca 2+ entry mechanism in nonexcitable cells. Stromal-interaction molecule 1 (STIM1) is an endoplasmic reticulum Ca 2+ sensor that triggers SOCE activation. However, the role of STIM1 in regulating cancer progression remains controversial and its clinical relevance is unclear. Here we show that STIM1-dependent signaling is important for cervical cancer cell proliferation, migration, and angiogenesis. STIM1 overexpression in tumor tissue is noted in 71% cases of early-stage cervical cancer. In tumor tissues, the level of STIM1 expression is significantly associated with the risk of metastasis and survival. EGF-stimulated cancer cell migration requires STIM1 expression and EGF increases the interaction between STIM1 and Orai1 in juxta-membrane areas, and thus induces Ca 2+ influx. STIM1 involves the activation of Ca 2+ -regulated protease calpain, as well as Ca 2+ -regulated cytoplasmic kinase Pyk2, which regulate the focal-adhesion dynamics of migratory cervical cancer cells. Because of an increase of p21 protein levels and a decrease of Cdc25C protein levels, STIM1-silencing in cervical cancer cells significantly inhibits cell proliferation by arresting the cell cycle at the S and G2/M phases. STIM1 also regulates the production of VEGF in cervical cancer cells. Interference with STIM1 expression or blockade of SOCE activity inhibits tumor angiogenesis and growth in animal models, confirming the crucial role of STIM1-mediated Ca 2+ influx in aggravating tumor development in vivo. These results make STIM1-dependent signaling an attractive target for therapeutic intervention.

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Remodeling of calcium signaling in tumor progression

Chen

et al. 2013

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Intracellular Ca2+ is one of the crucial signalings that modulate various cellular functions. The dysregulation of Ca2+ homeostasis has been suggested as an important event in driving the expression of the malignant phenotypes, such as proliferation, migration, invasion, and metastasis. Cell migration is an early prerequisite for tumor metastasis that has a significant impact on patient prognosis. During cell migration, the exquisite spatial and temporal organization of intracellular Ca2+ provides a rapid and robust way for the selective activation of signaling components that play a central role in cytoskeletal reorganization, traction force generation, and focal adhesion dynamics. A number of known molecular components involved in Ca2+ influx pathways, including stromal interaction molecule (STIM)/Orai-mediated store-operated Ca2+ entry (SOCE) and the Ca2+-permeable transient receptor potential (TRP) channels, have been implicated in cancer cell migration and tumor metastasis. The clinical significance of these molecules, such as STIM proteins and the TRPM7 channel, in tumor progression and their diagnostic and prognostic potentials have also been demonstrated in specific cancer types. In this review, we summarize the recent advances in understanding the important roles and regulatory mechanisms of these Ca2+ influx pathways on malignant behaviors of tumor cells. The clinical implications in facilitating current diagnostic and therapeutic procedures are also discussed.

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Inflammation-related pyroptosis, a novel programmed cell death pathway, and its crosstalk with immune therapy in cancer treatment

et al. 2021

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In recent decades, chemotherapies targeting apoptosis have emerged and demonstrated remarkable achievements. However, emerging evidence has shown that chemoresistance is mediated by impairing or bypassing apoptotic cell death. Several novel types of programmed cell death, such as ferroptosis, necroptosis, and pyroptosis, have recently been reported to play significant roles in the modulation of cancer progression and are considered a promising strategy for cancer treatment. Thus, the switch between apoptosis and pyroptosis is also discussed. Cancer immunotherapy has gained increasing attention due to breakthroughs in immune checkpoint inhibitors; moreover, ferroptosis, necroptosis, and pyroptosis are highly correlated with the modulation of immunity in the tumor microenvironment. Compared with necroptosis and ferroptosis, pyroptosis is the primary mechanism for host defense and is crucial for bridging innate and adaptive immunity. Furthermore, recent evidence has demonstrated that pyroptosis exerts benefits on cancer immunotherapies, including immune checkpoint inhibitors (ICIs) and chimeric antigen receptor T-cell therapy (CAR-T). Hence, in this review, we elucidate the role of pyroptosis in cancer progression and the modulation of immunity. We also summarize the potential small molecules and nanomaterials that target pyroptotic cell death mechanisms and their therapeutic effects on cancer.

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Insulin-like growth factor 1 is a potent stimulator of cervical cancer cell invasiveness and proliferation that is modulated by α v β 3 integrin signaling

Shen¹,

Hsu²,

Hsu³

et al. 2006

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Insulin-like growth factor 1 (IGF-1) has been implicated in promoting mitogenic, metastatic and antiapoptotic phenotypes in several types of cancer. But little is known about the signal interaction of IGF-1 and integrin in the regulation of cervical cancer development and progression. This study is to investigate the regulatory mechanism of IGF-1 receptor (IGF-1R) signaling and its importance in cervical cancer formation. The growth and invasiveness of cervical cancer cells (SiHa and CaSki) were dose-dependently stimulated by IGF-1, whereas those of normal cervical epithelial cells were not. The immunoblot showed that IGF-1R proteins were abundant in cervical cancer cell lines. In contrast, IGF-1R protein was nearly undetectable in normal cervical epithelial cells. IGF-1-stimulated invasion and proliferation were abolished by functional-blocking monoclonal antibody against IGF-1R, whereas these cellular functions were unaffected by either IgG or monoclonal antibody to insulin receptor. Functional-blocking monoclonal antibody against integrins alpha(v)beta3, but not alpha2 alpha3, alpha4 alpha6 beta1, beta4 or alpha2beta1, inhibited the IGF-1-stimulated invasion and proliferation in cervical cancer cells. alpha(v)beta3 integrin modulated IGF-1R phosphorylation by altering the rate of Src homology 2-containing phosphotyrosine phosphatase (SHP-2) recruitment to the activated IGF-1R. The modulation of alpha(v)beta3 occupancy also affected the activation of IGF-1R downstream-signaling elements, including activation of Akt and extracellular signal-regulated protein kinases 1/2 (Erk1/2). The treatment of blocking antibody of alpha(v)beta3 integrin or IGF-1R significantly inhibited tumor growth and caused tumor regression in SCID mice model. Immunoblots of tumor tissues confirmed that the phosphorylation of IGF-1R and downstream targets of Akt and Erk1/2 were remarkably decreased in SCID mice treated with blocking antibodies of alpha(v)beta3 or IGF-1R. Thus, these data suggest that the signal interaction between IGF-1R and alpha(v)beta3 integrin plays an important role in promoting the development and progression of cervical cancer.

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Microtubule-Associated Histone Deacetylase 6 Supports the Calcium Store Sensor STIM1 in Mediating Malignant Cell Behaviors

Chen

Chiu

et al. 2013

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Yih-Fung Chen

Calcium store sensor stromal-interaction molecule 1-dependent signaling plays an important role in cervical cancer growth, migration, and angiogenesis

Remodeling of calcium signaling in tumor progression

Inflammation-related pyroptosis, a novel programmed cell death pathway, and its crosstalk with immune therapy in cancer treatment

Insulin-like growth factor 1 is a potent stimulator of cervical cancer cell invasiveness and proliferation that is modulated by α v β 3 integrin signaling

Microtubule-Associated Histone Deacetylase 6 Supports the Calcium Store Sensor STIM1 in Mediating Malignant Cell Behaviors

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