Li Yen Mah scite author profile

The fibroblast growth factor receptors (FGFRs) regulate important biological processes including cell proliferation and differentiation during development and tissue repair. Over the past decades, numerous pathological conditions and developmental syndromes have emerged as a consequence of deregulation in the FGFRs signaling network. This review aims to provide an overview of FGFR family, their complex signaling pathways in tumorigenesis, and the current development and application of therapeutics targeting the FGFRs signaling for treatment of refractory human cancers.

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Autophagy and Cancer

Mah

Ryan

2011

Cold Spring Harbor Perspectives in Biology

147

109

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(Macro)autophagy is a cellular membrane trafficking process that serves to deliver cytoplasmic constituents to lysosomes for degradation. At basal levels, it is critical for maintaining cytoplasmic as well as genomic integrity and is therefore key to maintaining cellular homeostasis. Autophagy is also highly adaptable and can be modified to digest specific cargoes to bring about selective effects in response to numerous forms of intracellular and extracellular stress. It is not a surprise, therefore, that autophagy has a fundamental role in cancer and that perturbations in autophagy can contribute to malignant disease. We review here the roles of autophagy in various aspects of tumor suppression including the response of cells to nutrient and hypoxic stress, the control of programmed cell death, and the connection to tumor-associated immune responses.

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DRAM-1 encodes multiple isoforms that regulate autophagy

et al. 2012

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Keywords: DRAM-1, mRNA splice variants, p53, cell death, autophagy Abbreviations: RNAi, RNA interference; siRNA, small interfering RNA; GFP, green fluorescent protein; LC3, microtubule-associated protein 1 light chain 3; SV, splice variant; DRAM-1, damage-regulated autophagy modulator-1; MEF, mouse embryo fibroblast; Dox, doxycyclineMacro(autophagy) is a cellular mechanism which delivers cytoplasmic constituents to lysosomes for degradation. Due to its role in maintaining cellular integrity, autophagy protects against various diseases including cancer. p53 is a major tumor suppressor gene which can modulate autophagy both positively and negatively. p53 induces autophagy via transcriptional activation of damage-regulated autophagy modulator (DRAM-1). We report here that DRAM-1 encodes not just one mRNA, but a series of p53-inducible splice variants which are expressed at varying levels in multiple human and mouse cell lines. Two of these new splice variants, termed SV4 and SV5, result in mature mRNA species. Different from 'full-length' DRAM-1 (SV1), SV4 and SV5 do not localize to lysosomes or endosomes, but instead partially localize to peroxisomes and autophagosomes respectively. In addition, SV4 and SV5 can also be found co-localized with certain markers of the endoplasmic reticulum. Similar to SV1, SV4 and SV5 do not appear to be inducers of programmed cell death, but they do modulate autophagy. In summary, these findings identify new autophagy regulators that provide insight into the control of autophagy downstream of p53.

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Li Yen Mah

Functional roles of fibroblast growth factor receptors (FGFRs) signaling in human cancers

Autophagy and Cancer

DRAM-1 encodes multiple isoforms that regulate autophagy

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