Grants and Contracts Details
Description
The experiments in this research grant proposal will identify the cellular and synaptic effects of
endogenous cannabinoid (eCB) ligands and of glucocorticoid-induced release of eCBs in the dorsal motor
nucleus of the vagus (DMV). Neurons in the DMV regulate parasympathetic output to most of the
subdiaphragmatic viscera and therefore critically control feeding, digestion, glucose and insulin secretion,
and other metabolic functions. Their activity is largely controlled by synaptic input to the DMV, which is
modulated by locally released chemicals and circulating hormones. Regulation of DMV neurons by
cannabinoids, vanilloids, and glucocorticoids has been suggested; when applied centrally these
compounds profoundly alter parasympathetic function. Several eCB ligands, which are thought to be
released from cell membranes in a retrograde fashion, activate both cannabinoid type 1 receptors (CB1R)
and transient receptor potential vanilloid type 1 (TRPV1). In the DMV, activation of TRPV1 enhances
neurotransmitter release, whereas CB1 R tends to inhibit synapses. Both effects occur by activation of
receptors on presynaptic terminals. Preliminary evidence suggests that eCB ligands are released from
DMV neurons, and that glucocorticoids or depolarization can induce this release. Thus, eCB activity in the
DMV may modulate both TRPV1 and CBIR activity. Neither the type(s) of eCB ligands released, the
effects of most eCB ligands on synaptic activity, nor the trigger or mechanism of eCB release in the DMV
are known. We will use whole-cell patch-clamp recordings from DMV neurons in brainstem slices to
identify effects of eCS ligands on cellular activity in the DMV, and will also identify the compounds released
by cells in the area using pharmacological and biochemical methods. The experiments will be guided by
three specific aims: 1) Differentiate effects of eCB ligands on CB1 R and TRPV1 in the DMV; 2) Determine
the eCB involvement in mediating rapid effects of glucocorticoids on local circuitry in the DMV; and 3)
Identify the cellular pathway of the glucocorticoid effect. We will test the hypotheses that eCBs alter
TRPV1 and CBR1 activity in the DMV in specific and predictable spatial, temporal, functionally relevant,
and activity-dependent patterns, and that glucocorticoids induce eCB release from DMV cells by acting at
membrane-bound 0 protein-coupled receptors on DMV neurons. Drugs based on the eCB system are
being investigated for therapeutic use in a variety of nervous system pathologies, including disorders
related to feeding, digestion, and obesity. Glucocorticoids, which release eCBs in some systems, are
widely prescribed, and are also released by stressful stimuli. Results of these studies will be critical to
predicting and understanding how these compounds interact with each other and affect parasympathetic
function. Possible translational benefits also exist because of the benefit in controlling eCB levels in the
vagal system of patients with elevated glucocorticoids.
Status | Finished |
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Effective start/end date | 2/15/09 → 11/30/14 |
Funding
- National Institute Diabetes & Digestive & Kidney: $1,625,645.00
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