Literature DB >> 19393007

The rate-limiting step for glucose transport into the hypothalamus is across the blood-hypothalamus interface.

Carol Poitry-Yamate1, HongXia Lei, Rolf Gruetter.   

Abstract

Specialized glucosensing neurons are present in the hypothalamus, some of which neighbor the median eminence, where the blood-brain barrier has been reported leaky. A leaky blood-brain barrier implies high tissue glucose levels and obviates a role for endothelial glucose transporters in the control of hypothalamic glucose concentration, important in understanding the mechanisms of glucose sensing We therefore addressed the question of blood-brain barrier integrity at the hypothalamus for glucose transport by examining the brain tissue-to-plasma glucose ratio in the hypothalamus relative to other brain regions. We also examined glycogenolysis in hypothalamus because its occurrence is unlikely in the potential absence of a hypothalamus-blood interface. Across all regions the concentration of glucose was comparable at a given plasma glucose concentration and was a near linear function of plasma glucose. At steady-state, hypothalamic glucose concentration was similar to the extracellular hypothalamic glucose concentration reported by others. Hypothalamic glycogen fell at a rate of approximately 1.5 micromol/g/h and remained present in substantial amounts. We conclude for the hypothalamus, a putative primary site of brain glucose sensing that: the rate-limiting step for glucose transport into brain cells is at the blood-hypothalamus interface, and that glycogenolysis is consistent with a substantial blood -to- intracellular glucose concentration gradient.

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Year:  2009        PMID: 19393007      PMCID: PMC2679176          DOI: 10.1111/j.1471-4159.2009.05934.x

Source DB:  PubMed          Journal:  J Neurochem        ISSN: 0022-3042            Impact factor:   5.372


  55 in total

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Review 5.  Brain glucose-sensing mechanisms: ubiquitous silencing by aglycemia vs. hypothalamic neuroendocrine responses.

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6.  In vivo measurements of brain glucose transport using the reversible Michaelis-Menten model and simultaneous measurements of cerebral blood flow changes during hypoglycemia.

Authors:  I Y Choi; S P Lee; S G Kim; R Gruetter
Journal:  J Cereb Blood Flow Metab       Date:  2001-06       Impact factor: 6.200

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Authors:  R A de Graaf; J W Pan; F Telang; J H Lee; P Brown; E J Novotny; H P Hetherington; D L Rothman
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Authors:  In-Young Choi; Elizabeth R Seaquist; Rolf Gruetter
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  10 in total

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5.  Steady-state brain glucose transport kinetics re-evaluated with a four-state conformational model.

Authors:  João M N Duarte; Florence D Morgenthaler; Hongxia Lei; Carol Poitry-Yamate; Rolf Gruetter
Journal:  Front Neuroenergetics       Date:  2009-10-12

6.  Glucose sensitivity of mouse olfactory bulb neurons is conveyed by a voltage-gated potassium channel.

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Journal:  J Physiol       Date:  2013-03-11       Impact factor: 5.182

7.  Cellular and molecular cues of glucose sensing in the rat olfactory bulb.

Authors:  Dolly Al Koborssy; Brigitte Palouzier-Paulignan; Rita Salem; Marc Thevenet; Caroline Romestaing; A Karyn Julliard
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8.  Impact of aerobic exercise type on blood flow, muscle energy metabolism, and mitochondrial biogenesis in experimental lower extremity artery disease.

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9.  Hypothalamic arcuate nucleus glucokinase regulates insulin secretion and glucose homeostasis.

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10.  Dynamic Variations in Brain Glycogen are Involved in Modulating Isoflurane Anesthesia in Mice.

Authors:  Ze Fan; Zhihao Zhang; Shiyi Zhao; Yuanyuan Zhu; Dong Guo; Bo Yang; Lixia Zhuo; Jiao Han; Rui Wang; Zongping Fang; Hailong Dong; Yan Li; Lize Xiong
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  10 in total

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