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Peer-reviewed veterinary case report

Why dogs with insulin-dependent diabetes have weak glucagon and nerve

By Gilor, Chen et al.·Published in American journal of physiology. Endocrinology and metabolism·2020·Department of Veterinary Medicine and Epidemiology, United States·View original on PubMed

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Original publication title: Co-impairment of autonomic and glucagon responses to insulin-induced hypoglycemia in dogs with naturally occurring insulin-dependent diabetes mellitus.

Species:
dog

Plain-English summary

A group of dogs with diabetes were studied to see how their bodies responded to low blood sugar caused by insulin treatment. In this group, 8 out of 13 dogs did not produce enough glucagon, a hormone that helps raise blood sugar levels, while 5 dogs responded normally. The researchers found that the dogs that didn't respond had issues with their autonomic nervous system, which controls automatic body functions. This means that for diabetic dogs, both the hormone response and the nervous system's activation are important for managing low blood sugar. Understanding these responses can help improve treatment for diabetic dogs.

People also search for: dog diabetes low blood sugar treatment · why is my dog not responding to insulin · glucagon response in diabetic dogs

Abstract

This study aimed to investigate the contributions of two factors potentially impairing glucagon response to insulin-induced hypoglycemia (IIH) in insulin-deficient diabetes:) loss of paracrine disinhibition by intra-islet insulin and) defects in the activation of the autonomic inputs to the islet. Plasma glucagon responses during hyperinsulinemic-hypoglycemic clamps ([Formula: see text]40 mg/dL) were assessed in dogs with spontaneous diabetes (= 13) and in healthy nondiabetic dogs (= 6). Plasma C-peptide responses to intravenous glucagon were measured to assess endogenous insulin secretion. Plasma pancreatic polypeptide, epinephrine, and norepinephrine were measured as indices of parasympathetic and sympathoadrenal autonomic responses to IIH. In 8 of the 13 diabetic dogs, glucagon did not increase during IIH (diabetic nonresponder [DMN]; ∆ = -6 ± 12 pg/mL). In five other diabetic dogs (diabetic responder [DMR]), glucagon responses (∆ = +26 ± 12) were within the range of nondiabetic control dogs (∆ = +27 ± 16 pg/mL). C-peptide responses to intravenous glucagon were absent in diabetic dogs. Activation of all three autonomic responses were impaired in DMN dogs but remained intact in DMR dogs. Each of the three autonomic responses to IIH was positively correlated with glucagon responses across the three groups. The study conclusions are as follows:) Impairment of glucagon responses in DMN dogs is not due to generalized impairment of α-cell function.) Loss of tonic inhibition of glucagon secretion by insulin is not sufficient to produce loss of the glucagon response; impairment of autonomic activation is also required.) In dogs with major β-cell function loss, activation of the autonomic inputs is sufficient to mediate an intact glucagon response to IIH.In dogs with naturally occurring, insulin-dependent (C-peptide negative) diabetes mellitus, impairment of glucagon responses is not due to generalized impairment of α-cell function. Loss of tonic inhibition of glucagon secretion by insulin is not sufficient, by itself, to produce loss of the glucagon response. Rather, impaired activation of the parasympathetic and sympathoadrenal autonomic inputs to the pancreas is also required. Activation of the autonomic inputs to the pancreas is sufficient to mediate an intact glucagon response to insulin-induced hypoglycemia in dogs with naturally occurring diabetes mellitus. These results have important implications that include leading to a greater understanding and insight into the pathophysiology, prevention, and treatment of hypoglycemia during insulin treatment of diabetes in companion dogs and in human patients.

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Original publication on PubMed: https://pubmed.ncbi.nlm.nih.gov/33044845/