Abstract
The mechanistic complexity in type 2 diabetes (T2DM) is primarily responsible for the degrees of heterogeneity and development of complications. A complex mode of interactions between different pathophysiological events and diabetogenic environmental factors support for the genesis of diabetes heterogeneity both in phenotypic and clinical contexts. The currently used diabetes classification strategies suffer from several inconsistencies that cannot fully capture the inherent heterogeneity among the diabetes patients. To effectively address this pathobiological and heterogeneity-related issue in diabetes research, the current review proposes nine pathophysiological hallmarks of T2DM that aims to mechanistically explain complexities of diabetes associated pathophysiological events and their underlying features. These pathophysiological hallmarks are pancreatic beta cell dysfunction, insulin sensitivity, insulin resistance, obesity, aging, subclinical inflammation, metabolic dysregulation, prothrombotic state induction and hypertension. Detail knowledge of these pathophysiological hallmarks with their key molecular mediators, influencing factors, clinical biomarkers and clinical assessment methodologies will greatly support precision medicine approaches in diabetes including patient stratification, subtype diagnosis and treatment. SUPPLEMENTARY INFORMATION: The online version contains supplementary material available at 10.1007/s13340-024-00783-w.