Liver glycogen-induced enhancements in hypoglycemic counterregulation require neuroglucopenia

被引:6
作者
Warner, Shana O. [1 ]
Wadian, Abby M. [1 ]
Smith, Marta [2 ]
Farmer, Ben [2 ]
Dai, Yufei [1 ]
Sheanon, Nicole [3 ,4 ]
Edgerton, Dale S. [2 ]
Winnick, Jason J. [1 ]
机构
[1] Univ Cincinnati, Coll Med, Dept Internal Med, Div Endocrinol Diabet & Metab, Cincinnati, OH 45220 USA
[2] Vanderbilt Univ, Sch Med, Nashville, TN 37212 USA
[3] Univ Cincinnati, Coll Med, Dept Endocrinol, Cincinnati, OH USA
[4] Cincinnati Childrens Hosp Med Ctr, Cincinnati, OH 45229 USA
来源
AMERICAN JOURNAL OF PHYSIOLOGY-ENDOCRINOLOGY AND METABOLISM | 2021年 / 320卷 / 05期
关键词
glucagon; gut amino acid production; hepatic glucose metabolism; type; 1; diabetes; INSULIN-INDUCED HYPOGLYCEMIA; HEPATIC GLUCOSE-UPTAKE; ACTIVATED PROTEIN-KINASE; CEREBRAL-BLOOD-FLOW; EQUIVALENT HYPOGLYCEMIA; DIABETES-MELLITUS; AUTONOMIC FAILURE; CONSCIOUS DOG; BRAIN; GLUCAGON;
D O I
10.1152/ajpendo.00501.2020
中图分类号
R5 [内科学];
学科分类号
1002 ; 100201 ;
摘要
Iatrogenic hypoglycemia is a prominent barrier to achieving optimal glycemic control in patients with diabetes, in part due to dampened counterregulatory hormone responses. It has been demonstrated that elevated liver glycogen content can enhance these hormonal responses through signaling to the brain via afferent nerves, but the role that hypoglycemia in the brain plays in this liver glycogen effect remains unclear. During the first 4 h of each study, the liver glycogen content of dogs was increased by using an intraportal infusion of fructose to stimulate hepatic glucose uptake (HG; n = 13), or glycogen was maintained near fasting levels with a saline infusion (NG; n = 6). After a 2-h control period, during which the fructose/saline infusion was discontinued, insulin was infused intravenously for an additional 2 h to bring about systemic hypoglycemia in all animals, whereas brain euglycemia was maintained in a subset of the HG group by infusing glucose bilaterally into the carotid and vertebral arteries (HG-HeadEu; n = 7). Liver glycogen content was markedly elevated in the two HG groups (43 +/- 4, 73 +/- 3, and 75 +/- 7 mg/g in NG, HG, and HG-HeadEu, respectively). During the hypoglycemic period, arterial plasma glucose levels were indistinguishable between groups (53 +/- 2, 52 +/- 1, and 51 +/- 1 mg/dL, respectively), but jugular vein glucose levels were kept euglycemic (88 +/- 5 mg/dL) only in the HG-HeadEu group. Glucagon and epinephrine responses to hypoglycemia were higher in HG compared with NG, whereas despite the increase in liver glycogen, neither increased above basal in HG-HeadEu. These data demonstrate that the enhanced counterregulatory hormone secretion that accompanies increased liver glycogen content requires hypoglycemia in the brain. NEW & NOTEWORTHY It is well known that iatrogenic hypoglycemia is a barrier to optimal glycemic regulation in patients with diabetes. Our data confirm that increasing liver glycogen content 75% above fasting levels enhances hormonal responses to insulin-induced hypoglycemia and demonstrate that this enhanced hormonal response does not occur in the absence of hypoglycemia in the brain. These data demonstrate that information from the liver regarding glycogen availability is integrated in the brain to optimize the counterregulatory response.
引用
收藏
页码:E914 / E924
页数:11
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