Fasting induces a form of autonomic synaptic plasticity that prevents hypoglycemia

M Wang, Q Wang, MD Whim - Proceedings of the National …, 2016 - National Acad Sciences
M Wang, Q Wang, MD Whim
Proceedings of the National Academy of Sciences, 2016National Acad Sciences
During fasting, activation of the counter-regulatory response (CRR) prevents hypoglycemia.
A major effector arm is the autonomic nervous system that controls epinephrine release from
adrenal chromaffin cells and, consequently, hepatic glucose production. However, whether
modulation of autonomic function determines the relative strength of the CRR, and thus the
ability to withstand food deprivation and maintain euglycemia, is not known. Here we show
that fasting leads to altered transmission at the preganglionic→ chromaffin cell synapse. The …
During fasting, activation of the counter-regulatory response (CRR) prevents hypoglycemia. A major effector arm is the autonomic nervous system that controls epinephrine release from adrenal chromaffin cells and, consequently, hepatic glucose production. However, whether modulation of autonomic function determines the relative strength of the CRR, and thus the ability to withstand food deprivation and maintain euglycemia, is not known. Here we show that fasting leads to altered transmission at the preganglionic → chromaffin cell synapse. The dominant effect is a presynaptic, long-lasting increase in synaptic strength. Using genetic and pharmacological approaches we show this plasticity requires neuropeptide Y, an adrenal cotransmitter and the activation of adrenal Y5 receptors. Loss of neuropeptide Y prevents a fasting-induced increase in epinephrine release and results in hypoglycemia in vivo. These findings connect plasticity within the sympathetic nervous system to a physiological output and indicate the strength of the final synapse in this descending pathway plays a decisive role in maintaining euglycemia.
National Acad Sciences