The Molecular Basis of Insulin Resistance in Type 2 Diabetes Mellitus: A Chemical and Pathophysiological Perspective

Alanazi, Maha Mahdi; Albalaw, Mohammed Faraj; Abuong, Fahad Sami; Alghamdi, Saeed Mansour; Alhejaili, Omar Lafi Olaythah; Mikwar, Mohammad Esam; Al Qahtani, Haya Mohammed; Alsalim, Dawood Salman; Alakroosh, Abdulkhaliq Abdullh; Aljaloud, Hammad Abdullah; Aljadeedi, Abdullah  Khalifah; Almutairi, Fahad Ghazi

doi:10.21608/ejchem.2025.415295.12212

	The Molecular Basis of Insulin Resistance in Type 2 Diabetes Mellitus: A Chemical and Pathophysiological Perspective
Egyptian Journal of Chemistry
Volume 68, Issue 13, December 2025, Pages 1357-1363 PDF (559.44 K)
Document Type: Review Articles
DOI: 10.21608/ejchem.2025.415295.12212
Authors
Maha Mahdi Alanazi^* ; Mohammed Faraj Albalaw; Fahad Sami Abuong; Saeed Mansour Alghamdi; Omar Lafi Olaythah Alhejaili; Mohammad Esam Mikwar; Haya Mohammed Al Qahtani; Dawood Salman Alsalim; Abdulkhaliq Abdullh Alakroosh; Hammad Abdullah Aljaloud; Abdullah Khalifah Aljadeedi; Fahad Ghazi Almutairi
Ministry of National Guard, Saudi Arabia
Abstract
Type 2 Diabetes Mellitus (T2DM) constitutes a global health epidemic, characterized by hyperglycemia caused by peripheral insulin resistance and deteriorating pancreatic β-cell failure. Insulin resistance, the reduced responsiveness of target cells to physiological levels of insulin, is the prevalent defect in the overwhelming majority of T2DM. This review examines the intricate molecular and chemical origin of insulin resistance, from beyond the classic clinical presentation to the subcellular dysregulation that typifies the disease. We first define the elementary chemistry and biology of typical insulin signaling as a point of reference from which pathogenic deviations can be sensed. The review's center methodically dissects the major mechanistic hypotheses of insulin resistance, such as the roles of chronic low-grade inflammation, lipotoxicity, mitochondrial dysfunction, and endoplasmic reticulum stress. Detailed analysis is given on the chemical nature of major inhibitors, such as Ser/Thr phosphorylation of insulin receptor substrates (IRS) by several kinases (JNK, IKK, PKCθ), and bioactive lipid metabolite formation like diacylglycerols (DAG) and ceramides. Furthermore, we explore the action of adipose tissue as an endocrine organ, gut microbiota, and potential genetic/epigenetic mechanisms. The review also discusses the ensuing hyperglycemia-mediated molecular damage by advanced glycation end-products (AGEs) production and oxidative stress that constitute a vicious cycle to perpetuate insulin resistance. By integration of current knowledge, the current review aims to provide a chemically-based paradigm for the explanation of insulin resistance, identifying potential molecular targets for therapeutic intervention and new areas of research, of particular interest given the rising burden of T2DM in North African and Middle Eastern regions.
Keywords
Insulin Signaling; Insulin Receptor Substrate; Advanced Glycation End-Products; Inflammation; Mitochondrial Dysfunction

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