The strategic involvement of IRS in cancer progression

Insulin Receptor Substrate (IRS), an intracellular molecule devoid of an intrinsic kinase activity, is activated upon binding to IR which thereby works as a scaffold, organizing all signaling complexes and initiating the signaling process downstream. The level of IRS proteins and their stability in...

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Bibliographic Details
Published in:Biochemical and biophysical research communications 2023-11, Vol.680, p.141-160
Main Authors: Ahmed, Mehnaz, Biswas, Tannishtha, Mondal, Susmita
Format: Article
Language:English
Subjects:
acetylation
breasts
Cancer
colon
family
glycosylation
insulin
insulin receptor substrate proteins
IRS
IRS phosphorylation
lung neoplasms
lungs
metastasis
neoplasm progression
people
phosphorylation
prostatic neoplasms
serine
Signaling pathways
tyrosine
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Summary:Insulin Receptor Substrate (IRS), an intracellular molecule devoid of an intrinsic kinase activity, is activated upon binding to IR which thereby works as a scaffold, organizing all signaling complexes and initiating the signaling process downstream. The level of IRS proteins and their stability in the cell is mostly maintained through the phosphorylation status of their tyrosine and serine residues. IRS is positively regulated by phosphorylation of its Tyr residues whereas a Ser residue phosphorylation attenuates it, although there exist some exceptions as well. Other post-translational modifications like O-linked glycosylation, N-linked glycosylation and acetylation also play a prominent role in IRS regulation. Since the discovery of the Warburg effect, people have been curious to find out all possible signaling networks and molecules that could lead to cancer and no doubt, the insulin signaling pathway is identified as one such pathway, which is highly deregulated in cancers. Eminent studies reveal that IRS is a pertinent regulator of cancer and is highly overexpressed in the five most commonly occurring cancers namely- Prostate, Ovarian, Breast, Colon and Lung cancers. IRS1 and IRS2 family members are actively involved in the progression, invasion and metastasis of these cancers. Recently, less studied IRS4 has also emerged as a contributor in ovarian, breast, colorectal and lung cancer, but no such studies related to IRS4 are found in Prostate cancer. The involvement of other IRS family members in cancer is still undiscovered and so paves the way for further exploration. This review is a time-lapse study of IRSs in the context of cancer done over the past two decades and it highlights all the major discoveries made till date, in these cancers from the perspective of IRS. •IRS is the central molecule responsible for relaying the extracellular stimuli induced effects via its varied signaling network.•Activation and deactivation of IRS is regulated by the phosphorylation at its Tyrosine and Serine residues respectively.•IRS has a multifaceted involvement in progression and development of cancers.
ISSN:0006-291X
1090-2104
DOI:10.1016/j.bbrc.2023.09.036