Islet sympathetic innervation and islet neuropathology in patients with type 1 diabetes

Campbell-Thompson, Martha; Butterworth, Elizabeth A.; Boatwright, J. Lucas; Nair, Malavika A.; Nasif, Lith H.; Nasif, Kamal; Revell, Andrew Y; Riva, Alberto; Mathews, Clayton E.; Gerling, Ivan; Schatz, Desmond; Atkinson, Mark A.

doi:10.1038/s41598-021-85659-8

Cited by 22 publications

(12 citation statements)

References 79 publications

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“…These data suggest the possibility that the exocrine compartment influences beta cell function, including beta cell susceptibility to autoimmunity in T1D and beta cell failure in T2D. In addition to changes in acinar mass, alterations in the islet vasculature have been reported in T1D; however, vessels in the peri-islet region were not different between controls and T1D patients 84–86 . In addition, neuroplasticity of sympathetic innervation was observed in inflammatory conditions of the exocrine pancreas 86–88 .…”

Section: Metabolic Influences On the Exocrine Pancreasmentioning

confidence: 74%

“…[84][85][86] In addition, neuroplasticity of sympathetic innervation was observed in inflammatory conditions of the exocrine pancreas. [86][87][88] The development of diabetes after recurrent AP or CP indicates another condition in which inflammation of the exocrine pancreas decreases beta cell insulin secretion. Finally, subjects with diabetes associated with an exocrine pancreatopathy have decreased pancreas weight or volume with histological findings of increased interacinar fibrosis and acinar atrophy.…”

Section: Decreased Exocrine Mass In T1dmentioning

confidence: 99%

“…In addition to changes in acinar mass, alterations in the islet vasculature have been reported in T1D; however, vessels in the peri-islet region were not different between controls and T1D patients. [84][85][86] In addition, neuroplasticity of sympathetic innervation was observed in inflammatory conditions of the exocrine pancreas. [86][87][88] The development of diabetes after recurrent AP or CP indicates another condition in which inflammation of the exocrine pancreas decreases beta cell insulin secretion.…”

Section: Decreased Exocrine Mass In T1dmentioning

confidence: 99%

“…139 The ability to study complex interactions between islets and the surrounding acellular components of the environment as well as the nonendocrine cells that contribute to the islet niche has begun to provide a better understanding of islet physiology and pathophysiology. 140 Because living tissue slices retain islets in the native 3D tissue, other cell types and signals contributing to islet physiology can also be studied, including nerves, 86 vasculature, 141 pancreatic ductal cells, 142 exocrine cells, 143 ECM, 144 and immune cells. [145][146][147] Furthermore, slices make it possible to monitor islet and immune cell behavior in the pancreas parenchyma under pathophysiological states such as T1D, which result in compromised islet morphology and thus make isolation of whole islets challenging.…”

Section: Pancreatic Slice Culturementioning

confidence: 99%

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Integrated Physiology of the Exocrine and Endocrine Compartments in Pancreatic Diseases

Mastracci¹,

Apte

Ámundadóttir

et al. 2022

Pancreas

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The “Integrated Physiology of the Exocrine and Endocrine Compartments in Pancreatic Diseases” Workshop was a 1.5-day scientific conference at the National Institutes of Health (Bethesda, MD) that engaged clinical and basic science investigators interested in diseases of the pancreas. This report summarizes the workshop proceedings. The goal of the workshop was to forge connections and identify gaps in knowledge that could guide future research directions. Presentations were segregated into 6 major themes, including (a) Pancreas Anatomy and Physiology; (b) Diabetes in the Setting of Exocrine Disease; (c) Metabolic Influences on the Exocrine Pancreas; (d) Genetic Drivers of Pancreatic Diseases; (e) Tools for Integrated Pancreatic Analysis; and (f) Implications of Exocrine-Endocrine Crosstalk. For each theme, there were multiple presentations followed by panel discussions on specific topics relevant to each area of research; these are summarized herein. Significantly, the discussions resulted in the identification of research gaps and opportunities for the field to address. In general, it was concluded that as a pancreas research community, we must more thoughtfully integrate our current knowledge of the normal physiology as well as the disease mechanisms that underlie endocrine and exocrine disorders so that there is a better understanding of the interplay between these compartments.

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Section: Metabolic Influences On the Exocrine Pancreasmentioning

confidence: 74%

Section: Decreased Exocrine Mass In T1dmentioning

confidence: 99%

Section: Decreased Exocrine Mass In T1dmentioning

confidence: 99%

Section: Pancreatic Slice Culturementioning

confidence: 99%

See 2 more Smart Citations

Integrated Physiology of the Exocrine and Endocrine Compartments in Pancreatic Diseases

Mastracci¹,

Apte

Ámundadóttir

et al. 2022

Pancreas

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“…reported altered adrenergic signaling and loss of sympathetic innervation in individuals with non‐diabetic islet autoantibody‐positive, but not in T1D individuals. [ 3a,21 ] In a study utilizing the rat insulin promoter‐lymphocytic choriomeningitis virus‐glycoprotein (RIP‐LCMV‐GP) mouse model of T1D, Christoffersson et al. demonstrated a remarkable infiltration of CD8 + T cells in conjunction with the depletion of islet‐specific tyrosine hydroxylase‐positive (TH + ) sympathetic nerves.…”

Section: The Sympathetic Innervation and Immune Milieu In The Pancreasmentioning

confidence: 99%

The Sympathetic‐Immune Milieu in Metabolic Health and Diseases: Insights from Pancreas, Liver, Intestine, and Adipose Tissues

Ren,

Hua,

Cao

et al. 2023

Advanced Science

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Sympathetic innervation plays a crucial role in maintaining energy balance and contributes to metabolic pathophysiology. Recent evidence has begun to uncover the innervation landscape of sympathetic projections and sheds light on their important functions in metabolic activities. Additionally, the immune system has long been studied for its essential roles in metabolic health and diseases. In this review, the aim is to provide an overview of the current research progress on the sympathetic regulation of key metabolic organs, including the pancreas, liver, intestine, and adipose tissues. In particular, efforts are made to highlight the critical roles of the peripheral nervous system and its potential interplay with immune components. Overall, it is hoped to underscore the importance of studying metabolic organs from a comprehensive and interconnected perspective, which will provide valuable insights into the complex mechanisms underlying metabolic regulation and may lead to novel therapeutic strategies for metabolic diseases.

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Unravelling innervation of pancreatic islets

2022

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Islet sympathetic innervation and islet neuropathology in patients with type 1 diabetes

Cited by 22 publications

References 79 publications

Integrated Physiology of the Exocrine and Endocrine Compartments in Pancreatic Diseases

Integrated Physiology of the Exocrine and Endocrine Compartments in Pancreatic Diseases

The Sympathetic‐Immune Milieu in Metabolic Health and Diseases: Insights from Pancreas, Liver, Intestine, and Adipose Tissues

Unravelling innervation of pancreatic islets

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