Anionic Lipid Catalyzes the Generation of Cytotoxic Insulin Oligomers
Jhinuk Saha, Audrey Wolszczak, Navneet Kaur, Malitha C. Dickwella Widanage, Samuel D. McCalpin, Riqiang Fu, Jamel Ali, Ayyalusamy Ramamoorthy

TL;DR
This study shows that anionic lipids influence how insulin misfolds and aggregates, leading to toxic intermediates that could impact diabetes treatment.
Contribution
The study reveals that anionic DMPG lipids alter insulin aggregation pathways and increase cytotoxicity of soluble intermediates.
Findings
DMPG lipids alter insulin aggregation pathways and promote formation of soluble intermediates.
Soluble insulin intermediates are more cytotoxic than fibrils.
Lipids do not change insulin fibril conformation but affect side chain motion dynamics.
Abstract
The misfolding and aggregation of proteins into amyloidogenic assemblies are key features of several metabolic and neurodegenerative diseases. Human insulin has long been known to form amyloid fibrils under various conditions, which affects its bioavailability and function. Clinically, insulin aggregation at recurrent injection sites poses a challenge for diabetic patients who rely on insulin therapy. Furthermore, decreased responsiveness to insulin in type 2 diabetic (T2D) patients may lead to its overproduction and accumulation as aggregates. Earlier reports have reported that various factors such as pH, temperature, agitation, and the presence of lipids or other proteins influence insulin aggregation. Our present study aims to elucidate the effects of non–micellar anionic DMPG (1,2–dimyristoyl–sn–glycero–3–phosphoglycerol) lipids on insulin aggregation. Distinct pathways of insulin…
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Taxonomy
TopicsRNA Research and Splicing · RNA Interference and Gene Delivery · RNA modifications and cancer
