Repeated hypoglycemia remodels neural inputs and disrupts mitochondrial function to blunt glucose-inhibited GHRH neuron responsiveness
Mitchell Bayne, Alexandra Alvarsson, Kavya Devarakonda, Rosemary Li, Maria Jimenez-Gonzalez, Darline Garibay, Kaetlyn Conner, Merina Varghese, Madhavika N. Serasinghe, Jerry E. Chipuk, Patrick R. Hof, Sarah A. Stanley
Mitchell Bayne, Alexandra Alvarsson, Kavya Devarakonda, Rosemary Li, Maria Jimenez-Gonzalez, Darline Garibay, Kaetlyn Conner, Merina Varghese, Madhavika N. Serasinghe, Jerry E. Chipuk, Patrick R. Hof, Sarah A. Stanley
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Research Article Metabolism Neuroscience

Repeated hypoglycemia remodels neural inputs and disrupts mitochondrial function to blunt glucose-inhibited GHRH neuron responsiveness

Abstract

Hypoglycemia is a frequent complication of diabetes, limiting therapy and increasing morbidity and mortality. With recurrent hypoglycemia, the counterregulatory response (CRR) to decreased blood glucose is blunted, resulting in hypoglycemia-associated autonomic failure (HAAF). The mechanisms leading to these blunted effects are only poorly understood. Here, we report, with ISH, IHC, and the tissue-clearing capability of iDISCO+, that growth hormone releasing hormone (GHRH) neurons represent a unique population of arcuate nucleus neurons activated by glucose deprivation in vivo. Repeated glucose deprivation reduces GHRH neuron activation and remodels excitatory and inhibitory inputs to GHRH neurons. We show that low glucose sensing is coupled to GHRH neuron depolarization, decreased ATP production, and mitochondrial fusion. Repeated hypoglycemia attenuates these responses during low glucose. By maintaining mitochondrial length with the small molecule mitochondrial division inhibitor-1, we preserved hypoglycemia sensitivity in vitro and in vivo. Our findings present possible mechanisms for the blunting of the CRR, significantly broaden our understanding of the structure of GHRH neurons, and reveal that mitochondrial dynamics play an important role in HAAF. We conclude that interventions targeting mitochondrial fission in GHRH neurons may offer a new pathway to prevent HAAF in patients with diabetes.

Authors

Mitchell Bayne, Alexandra Alvarsson, Kavya Devarakonda, Rosemary Li, Maria Jimenez-Gonzalez, Darline Garibay, Kaetlyn Conner, Merina Varghese, Madhavika N. Serasinghe, Jerry E. Chipuk, Patrick R. Hof, Sarah A. Stanley

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Figure 6

N38 cells are glucose inhibited and responses are blunted by recurrent glucose deprivation.

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N38 cells are glucose inhibited and responses are blunted by recurrent g...
(A) Schema of experimental protocol for repeated glucose deprivation of N38 cells in vitro by treatment with media containing 25 mM glucose (standard culture conditions) or 2.5 mM glucose (glucose deprivation). (B) Quantification of GHRH release from N38 cells after no (0x) or single (1x) or repeated glucose deprivation (3x and 5x; n = 3–4 experiments, in triplicate). *P = 0.04, F[3, 61] = 3.854, 1-way ANOVA with Tukey’s multiple-comparisons test. (C) Quantification of Ghrh expression in N38 cells after no (0x) or single (1x) or repeated glucose deprivation (3x and 5x) (n = 3–4 experiments, in triplicate). **P = 0.004, χ2[3] = 11.61, Kruskal-Wallis test with Dunn’s multiple-comparisons test. (D) Time-resolved calcium responses using calcium indicator Fluo-4 (F/F0, color scale) of 53 N38 cells without previous glucose deprivation (1 cell/row) with 25 mM, 5 mM, and 2.5 mM glucose treatment. (E) Quantification of peak fluorescence (F/F0) with 25 mM, 5 mM, and 2.5 mM glucose treatment in N38 cells without previous glucose deprivation (4 studies, 51–307 cells). ***P = 0.0004 25 mM vs. 5 mM; ###P = 0.0008 5 mM vs. 2.5 mM; ****P < 0.0001, 25 mM vs. 2.5 mM, χ2[2] = 56.2, Kruskal-Wallis test with Dunn’s multiple-comparisons test. (F) Quantification of peak fluorescence (F/F0) with no (0x) or single (1x) or repeated glucose deprivation (3x and 5x) in N38 cells (4 studies, 170–307 cells). ****P < 0.0001, χ2[3] = 188.2, Kruskal-Wallis test with Dunn’s multiple-comparisons test. Each dot represents data from individual cells and data are displayed as mean ± SEM.