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3D imaging of human pancreas suggests islet size and endocrine composition influence their loss in type 1 diabetes.


ABSTRACT: A high-definition description of pancreatic islets would prove beneficial for understanding the pathophysiology of type 1 diabetes (T1D), yet significant knowledge gaps exist in terms of their size, endocrine cell composition, and number in both health and disease. Here, 3-dimensional (3D) analyses of pancreata from control persons without diabetes (ND) demonstrate approximately 50% of islets are insulin-positive (INS + ) glucagon-negative (GCG-). Non-diabetic individuals positive for a single Glutamic acid decarboxylase autoantibody (GADA + ) yet at increased risk for disease consistently demonstrate endocrine features, including islet volume and cell composition, closely resembling the age-matched ND controls. In contrast, pancreata from individuals with short-duration T1D demonstrate significantly reduced islet density and a dramatic loss of INS + GCG- islets with preservation of large INS + GCG+ islets. The size and cellular composition of pancreatic islets may, therefore, represent influential factors that impact β-cell loss during T1D disease progression.

SUBMITTER: Rippa A 

PROVIDER: S-EPMC12727770 | biostudies-literature | 2025 Dec

REPOSITORIES: biostudies-literature

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3D imaging of human pancreas suggests islet size and endocrine composition influence their loss in type 1 diabetes.

Rippa Alexandra A   Posgai Amanda L AL   Currlin Seth S   Brusko Maigan M   Williams MacKenzie D MD   Kaddis John S JS   Kusmartseva Irina I   Wasserfall Clive H CH   Campbell-Thompson Martha M   Atkinson Mark A MA  

Nature communications 20251211 1


A high-definition description of pancreatic islets would prove beneficial for understanding the pathophysiology of type 1 diabetes (T1D), yet significant knowledge gaps exist in terms of their size, endocrine cell composition, and number in both health and disease. Here, 3-dimensional (3D) analyses of pancreata from control persons without diabetes (ND) demonstrate approximately 50% of islets are insulin-positive (INS + ) glucagon-negative (GCG-). Non-diabetic individuals positive for a single G  ...[more]

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