Mariam Banday scite author profile

Alpha1-antitrypsin (AAT) is one of the major circulating anti-protease whose levels in circulation are raised during excessive amount of proteases, especially neutrophil elastase (NE) released during the course of inflammation. Proteolytic attack of NE on peripheral organs, more exclusively on lung parenchyma has severe consequence that may precipitate pulmonary emphysema. Normally, human body has its own molecular and physiological mechanisms to synthesize and regulate the production of anti-protease like AAT to mitigate the extent of inflammatory damage. AAT coded by serine-protease inhibitor (SERPINA1) is predominantly expressed in hepatocytes and to some extent by macrophages, monocytes, lung tissue etc. The observation that persons with AAT deficiency developed chronic obstructive pulmonary disease (COPD) and early-onset of emphysema proposed a role for pathways connecting AAT in pathogenesis. Extensive studies have been done till now to bridge a connection between numerous genetic polymorphisms of SERPINA1 gene and the early onset of COPD. Here in this review, we have comprehensively discussed some of the variants of SERPINA1 gene discovered till date and their association with the exacerbation of obstructive pulmonary disease.

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SERPINA1 Hepatocyte-Specific Promoter Polymorphism Associate with Chronic Obstructive Pulmonary Disease in a Study of Kashmiri Ancestry Individuals

Bashir

Hazari

Bashir

et al. 2018

Lung

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The Bcl‐2 family protein bid interacts with the ER stress sensor IRE1 to differentially modulate its RNase activity

et al. 2023

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IRE1 is a transmembrane signalling protein that activates the unfolded protein response under endoplasmic reticulum stress. IRE1 is endowed with kinase and endoribonuclease activities. The ribonuclease activity of IRE1 can switch substrate specificities to carry out atypical splicing of Xbp1 mRNA or trigger the degradation of specific mRNAs. The mechanisms regulating the distinct ribonuclease activities of IRE1 have yet to be fully understood. Here, we report the Bcl-2 family protein Bid as a novel recruit of the IRE1 complex, which directly interacts with the cytoplasmic domain of IRE1. Bid binding to IRE1 leads to a decrease in IRE1 phosphorylation in a way that it can only perform Xbp1 splicing while mRNA degradation activity is repressed. The RNase outputs of IRE1 have been found to regulate the homeostatic-apoptotic switch. This study, thus, provides insight into IRE1-mediated cell survival.

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sMEK1 promotes crosstalk between IRE1 and Akt signalling pathways: Evidence for a novel IRE1/sMEK1/Akt complex

Qadri

Bashir

Banday

et al. 2021

Preprint

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ER is facilitated with a dynamic cellular pathway namely Unfolded Protein Response (UPR): an adaptive signalling mechanism that maintains proteostasis in response to ER stress. IRE1 is one of the three transmembrane sensors of UPR with dual protein kinase and ribonuclease activities. IRE1 acts as a central molecule of UPR, which associates with a number of proteins that either regulate its activity or connect it to other pathways. Here, we report sMEK1 and Akt as novel interacting partners of IRE1 which associate to orchestrate the IRE1 and Akt signalling networks. Our study revealed that ER stress negatively regulates Akt through IRE1 protein. We found that IRE1/sMEK1/Akt form a ternary complex, which results in the dephosphorylation of Akt by protein phosphotase sMEK1 in presence of activated IRE1. Together, this study highlights the UPR/Akt link by delineating the molecular mechanism along with giving insights into the overall impact of this interaction.

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Mariam Banday

The molecular mechanism and functional diversity of UPR signaling sensor IRE1

Novel variants of SERPIN1A gene: Interplay between alpha1-antitrypsin deficiency and chronic obstructive pulmonary disease

SERPINA1 Hepatocyte-Specific Promoter Polymorphism Associate with Chronic Obstructive Pulmonary Disease in a Study of Kashmiri Ancestry Individuals

The Bcl‐2 family protein bid interacts with the ER stress sensor IRE1 to differentially modulate its RNase activity

sMEK1 promotes crosstalk between IRE1 and Akt signalling pathways: Evidence for a novel IRE1/sMEK1/Akt complex

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