Abhishek Guha scite author profile

Translation control of proinflammatory genes has a crucial role in regulating the inflammatory response and preventing chronic inflammation, including a transition to cancer. The proinflammatory tumor suppressor protein programmed cell death 4 (PDCD4) is important for maintaining the balance between inflammation and tumorigenesis. PDCD4 messenger RNA translation is inhibited by the oncogenic microRNA, miR-21. AU-rich element-binding protein HuR was found to interact with the PDCD4 3′-untranslated region (UTR) and prevent miR-21-mediated repression of PDCD4 translation. Cells stably expressing miR-21 showed higher proliferation and reduced apoptosis, which was reversed by HuR expression. Inflammatory stimulus caused nuclear-cytoplasmic relocalization of HuR, reversing the translation repression of PDCD4. Unprecedentedly, HuR was also found to bind to miR-21 directly, preventing its interaction with the PDCD4 3′-UTR, thereby preventing the translation repression of PDCD4. This suggests that HuR might act as a ‘miRNA sponge‘ to regulate miRNA-mediated translation regulation under conditions of stress-induced nuclear-cytoplasmic translocation of HuR, which would allow fine-tuned gene expression in complex regulatory environments.

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RAS-GTP levels are elevated in human NF1 peripheral nerve tumors

Guha¹,

Lau²,

Gutmann³

et al. 1997

Clinical Neurology and Neurosurgery

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Integrated Regulation of HuR by Translation Repression and Protein Degradation Determines Pulsatile Expression of p53 Under DNA Damage

et al. 2019

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Summary Expression of tumor suppressor p53 is regulated at multiple levels, disruption of which often leads to cancer. We have adopted an approach combining computational systems modeling with experimental validation to elucidate the translation regulatory network that controls p53 expression post DNA damage. The RNA-binding protein HuR activates p53 mRNA translation in response to UVC-induced DNA damage in breast carcinoma cells. p53 and HuR levels show pulsatile change post UV irradiation. The computed model fitted with the observed pulse of p53 and HuR only when hypothetical regulators of synthesis and degradation of HuR were incorporated. miR-125b, a UV-responsive microRNA, was found to represses the translation of HuR mRNA. Furthermore, UV irradiation triggered proteasomal degradation of HuR mediated by an E3-ubiquitin ligase tripartite motif-containing 21 (TRIM21). The integrated action of miR-125b and TRIM21 constitutes an intricate control system that regulates pulsatile expression of HuR and p53 and determines cell viability in response to DNA damage.

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SRI‐42127, a novel small molecule inhibitor of the RNA regulator HuR, potently attenuates glial activation in a model of lipopolysaccharide‐induced neuroinflammation

Chellappan

Guha

et al. 2021

Glia

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Glial activation with the production of pro‐inflammatory mediators is a major driver of disease progression in neurological processes ranging from acute traumatic injury to chronic neurodegenerative diseases such as amyotrophic lateral sclerosis and Alzheimer's disease. Posttranscriptional regulation is a major gateway for glial activation as many mRNAs encoding pro‐inflammatory mediators contain adenine‐ and uridine‐rich elements (ARE) in the 3′ untranslated region which govern their expression. We have previously shown that HuR, an RNA regulator that binds to AREs, plays a major positive role in regulating inflammatory cytokine production in glia. HuR is predominantly nuclear in localization but translocates to the cytoplasm to exert a positive regulatory effect on RNA stability and translational efficiency. Homodimerization of HuR is necessary for translocation and we have developed a small molecule inhibitor, SRI‐42127, that blocks this process. Here we show that SRI‐42127 suppressed HuR translocation in LPS‐activated glia in vitro and in vivo and significantly attenuated the production of pro‐inflammatory mediators including IL1β, IL‐6, TNF‐α, iNOS, CXCL1, and CCL2. Cytokines typically associated with anti‐inflammatory effects including TGF‐β1, IL‐10, YM1, and Arg1 were either unaffected or minimally affected. SRI‐42127 suppressed microglial activation in vivo and attenuated the recruitment/chemotaxis of neutrophils and monocytes. RNA kinetic studies and luciferase studies indicated that SRI‐42127 has inhibitory effects both on mRNA stability and gene promoter activation. In summary, our findings underscore HuR's critical role in promoting glial activation and the potential for SRI‐42127 and other HuR inhibitors for treating neurological diseases driven by this activation.

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Abhishek Guha

Surface-modified carbons as platinum catalyst support for PEM fuel cells

RNA-binding protein HuR sequesters microRNA-21 to prevent translation repression of proinflammatory tumor suppressor gene programmed cell death 4

RAS-GTP levels are elevated in human NF1 peripheral nerve tumors

Integrated Regulation of HuR by Translation Repression and Protein Degradation Determines Pulsatile Expression of p53 Under DNA Damage

SRI‐42127, a novel small molecule inhibitor of the RNA regulator HuR, potently attenuates glial activation in a model of lipopolysaccharide‐induced neuroinflammation

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