Regulation of KATP channel subunit gene expression by hyperglycemia in the mediobasal hypothalamus of female rats

doi:10.1152/ajpendo.00700.2006

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Am J Physiol Endocrinol Metab 292: E1801-E1807, 2007. First published February 20, 2007; doi:10.1152/ajpendo.00700.2006
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Regulation of K_ATP channel subunit gene expression by hyperglycemia in the mediobasal hypothalamus of female rats

Maricedes Acosta-Martínez and Jon E. Levine

Department of Neurobiology and Physiology, Northwestern University, Evanston, Illinois

Submitted 20 December 2006 ; accepted in final form 13 February 2007

The ATP-sensitive potassium (K_ATP) channels are gated by intracellularadenine nucleotides coupling cell metabolism to membrane potential.Channels comprised of Kir6.2 and SUR1 subunits function in subpopulationsof mediobasal hypothalamic (MBH) neurons as an essential componentof a glucose-sensing mechanism in these cells, wherein uptakeand metabolism of glucose leads to increase in intracellularATP/ADP, closure of the channels, and increase in neuronal excitability.However, it is unknown whether glucose and/or insulin may alsoregulate the gene expression of the channel subunits in thebrain. The present study investigated whether regulation ofK_ATP channel subunit gene expression might be a mechanism bywhich neuronal populations adapt to prolonged changes in glucoseand/or insulin levels in the periphery. Ovariectomized, steroid-replacedrats were fitted with indwelling jugular catheters and infusedfor 48 h with saline, glucose (hyperglycemia-hyperinsulinemia),insulin and glucose (hyperinsulinemia), diazoxide (control),or glucose and diazoxide (hyperglycemia). At the end of infusions,the MBH, preoptic area, and pituitary were dissected for RNAisolation and RT-PCR. Hyperglycemia decreased Kir6.2 mRNA levelsin the MBH in both the presence and absence of hyperinsulinemia.These same conditions also produced a trend toward decreasedSUR1 mRNA levels in the MBH; however, it did not exceed statisticalsignificance. Hyperglycemia increased whereas hyperinsulinemiareduced neuropeptide Y mRNA levels when these groups were comparedwith each other. However, neither was significantly differentfrom values observed in saline-infused controls. In conclusion,hyperglycemia per se may alter expression of K_ATP channels andthereby induce changes in the excitability of some MBH neurons.

adenosine triphosphate-sensitive potassium channels; glucose; insulin

Address for reprint requests and other correspondence: J. E. Levine, Dept. of Neurobiology and Physiology, Northwestern University, 2205 Tech Dr., Evanston, IL 60208 (e-mail: jlevine{at}northwestern.edu)

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