Crim1 regulates integrin signaling in murine lens development

Zhang, Ying; Fan, Jieqing; Ho, Joshua Wk; Hu, Tommy; Kneeland, Stephen C.; Fan, Xueping; Xi, Qiongchao; Sellarole, Michael A.; Vries, Wilhelmine N. de; Lu, Weining; Lachke, Salil A.; Lang, Richard A.; John, Simon W. M.; Maas, Richard L.

doi:10.1242/jcs.186437

Cited by 12 publications

References 28 publications

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Targeting Tumor Physical Microenvironment for Improved Radiotherapy

Wang

Han

et al. 2022

Small Methods

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Radiotherapy has led to important clinical advances; existing cancer radiotherapy resistance is one remaining major challenge. Recently, biophysical cues in the tumor microenvironment (TME) have been regarded as the new hallmarks of cancer, playing pivotal roles in various cancer behaviors and treatment responses, including radiotherapy resistance. With recent advances in micro/nanotechnologies and functional biomaterials, radiotherapy exerts great influence on biophysical cues in TME, which, in turn, significantly affect the response to radiotherapy. Besides, various strategies have emerged that target biophysical cues in TME, to potentially enhance radiotherapy efficacy. Therefore, this paper reviews the four biophysical cues (i.e., extracellular matrix (ECM) microarchitecture, ECM stiffness, interstitial fluid pressure, and solid stress) that may play important roles in radiotherapy resistance, their possible mechanisms for inducing it, and their change after radiotherapy. The emerging therapeutic strategies targeting the biophysical microenvironment, to explore the mechanism of radiotherapy resistance and develop effective strategies to revert it for improved treatment efficacy are further summarized.

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Targeting Tumor Physical Microenvironment for Improved Radiotherapy

Wang

Han

et al. 2022

Small Methods

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IAPs and Cell Death

Vince

2016

Current Topics in Microbiology and Immunology

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IAPs were named as inhibitors of apoptosis, programmed cell death, but it has become apparent that they are regulators of other types of cell death too. Because they inhibit cell death in cancer cells there has been an intense interest in developing inhibitors of these proteins to induce or sensitise cancer cells to death. In this article, we will discuss the involvement of IAPs in the apoptosis, necroptosis and pyroptosis programmed cell death paradigms. All these types of cell death are intimately involved with causing or repressing inflammation and it should perhaps therefore come as no surprise that IAPs are also involved in regulating inflammation directly. To come full circle, the IAP antagonist drugs that were developed to sensitise cancer cells to apoptosis have led to some of these insights.

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Mitochondrial Changes

Lou¹,

Guan²

2021

Coal-Burning Type of Endemic Fluorosis

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Crim1 regulates integrin signaling in murine lens development

Cited by 12 publications

References 28 publications

Targeting Tumor Physical Microenvironment for Improved Radiotherapy

Targeting Tumor Physical Microenvironment for Improved Radiotherapy

IAPs and Cell Death

Mitochondrial Changes

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