Articulo
Ghrelin Selectively Inhibits CaV3.3 Subtype of Low-Voltage-Gated Calcium Channels
Registro en:
issn:1559-1182
issn:0893-7648
Autor
Mustafá, Emilio Román
Cordisco Gonzalez, Santiago
Raingo, Jesica
Institución
Resumen
The mechanisms by which ghrelin controls electrical activity in the hypothalamus are not fully understood. One unexplored target of ghrelin is Ca<sub>V</sub>3, responsible for transient calcium currents (T-currents) that control neuronal firing. We investigated the effect of ghrelin on Ca<sub>V</sub>3 subtypes and how this modulation impacts on neuronal activity. We performed whole-cell patch-clamp recordings in primary mouse hypothalamic cultures to explore the effect of ghrelin on T-currents. We also recorded calcium currents from transiently transfected tsA201 cells to study the sensitivity of each Ca<sub>V</sub>3 subtype to GHSR activation. Finally, we ran a computational model combining the well-known reduction of potassium current by ghrelin with the Ca<sub>V</sub>3 biophysical parameter modifications induced by ghrelin to predict the impact on neuronal electrical behavior. We found that ghrelin inhibits native NiCl₂ sensitive current currents in hypothalamic neurons. We determined that Ca<sub>V</sub>3.3 is the only Ca<sub>V</sub>3 subtype sensitive to ghrelin. The modulation of Ca<sub>V</sub>3.3 by ghrelin comprises a reduction in maximum conductance, a shift to hyperpolarized voltages of the I–V and steady-state inactivation curves, and an acceleration of activation and inactivation kinetics. Our model-based prediction indicates that the inhibition of Ca<sub>V</sub>3.3 would attenuate the stimulation of firing originating from the inhibition of potassium currents by ghrelin. In summary, we discovered a new target of ghrelin in neurons: the Ca<sub>V</sub>3.3. This mechanism would imply a negative feed-forward regulation of the neuronal activation exerted by ghrelin. Our work expands the knowledge of the wide range of actions of GHSR, a receptor potentially targeted by therapeutics for several diseases. Facultad de Ciencias Exactas Instituto Multidisciplinario de Biología Celular