[PDF][PDF] Alpha2delta-1 in SF1+ neurons of the ventromedial hypothalamus is an essential regulator of glucose and lipid homeostasis

JA Felsted, CH Chien, D Wang, M Panessiti… - Cell reports, 2017 - cell.com
JA Felsted, CH Chien, D Wang, M Panessiti, D Ameroso, A Greenberg, G Feng, D Kong…
Cell reports, 2017cell.com
The central mechanisms controlling glucose and lipid homeostasis are inadequately
understood. We show that α2δ-1 is an essential regulator of glucose and lipid balance,
acting in steroidogenic factor-1 (SF1) neurons of the ventromedial hypothalamus (VMH).
These effects are body weight independent and involve regulation of SF1+ neuronal activity
and sympathetic output to metabolic tissues. Accordingly, mice with α2δ-1 deletion in SF1
neurons exhibit glucose intolerance, altered lipolysis, and decreased cholesterol content in …
Summary
The central mechanisms controlling glucose and lipid homeostasis are inadequately understood. We show that α2δ-1 is an essential regulator of glucose and lipid balance, acting in steroidogenic factor-1 (SF1) neurons of the ventromedial hypothalamus (VMH). These effects are body weight independent and involve regulation of SF1+ neuronal activity and sympathetic output to metabolic tissues. Accordingly, mice with α2δ-1 deletion in SF1 neurons exhibit glucose intolerance, altered lipolysis, and decreased cholesterol content in adipose tissue despite normal energy balance regulation. Profound reductions in the firing rate of SF1 neurons, decreased sympathetic output, and elevated circulating levels of serotonin are associated with these alterations. Normal calcium currents but reduced excitatory postsynaptic currents in mutant SF1 neurons implicate α2δ-1 in the promotion of excitatory synaptogenesis separate from its canonical role as a calcium channel subunit. Collectively, these findings identify an essential mechanism that regulates VMH neuronal activity and glycemic and lipid control and may be a target for tackling metabolic disease.
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