Neurobiology of Stress (May 2021)

Resilience to anhedonia-passive coping induced by early life experience is linked to a long-lasting reduction of Ih current in VTA dopaminergic neurons

  • Sebastian Luca D'Addario,
  • Matteo Di Segni,
  • Ada Ledonne,
  • Rosamaria Piscitelli,
  • Lucy Babicola,
  • Alessandro Martini,
  • Elena Spoleti,
  • Camilla Mancini,
  • Donald Ielpo,
  • Francesca R. D'Amato,
  • Diego Andolina,
  • Davide Ragozzino,
  • Nicola B. Mercuri,
  • Carlo Cifani,
  • Massimiliano Renzi,
  • Ezia Guatteo,
  • Rossella Ventura

Journal volume & issue
Vol. 14
p. 100324

Abstract

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Exposure to aversive events during sensitive developmental periods can affect the preferential coping strategy adopted by individuals later in life, leading to either stress-related psychiatric disorders, including depression, or to well-adaptation to future adversity and sources of stress, a behavior phenotype termed “resilience”.We have previously shown that interfering with the development of mother-pups bond with the Repeated Cross Fostering (RCF) stress protocol can induce resilience to depression-like phenotype in adult C57BL/6J female mice. Here, we used patch-clamp recording in midbrain slice combined with both in vivo and ex vivo pharmacology to test our hypothesis of a link between electrophysiological modifications of dopaminergic neurons in the intermediate Ventral Tegmental Area (VTA) of RCF animals and behavioral resilience. We found reduced hyperpolarization-activated (Ih) cation current amplitude and evoked firing in VTA dopaminergic neurons from both young and adult RCF female mice. In vivo, VTA-specific pharmacological manipulation of the Ih current reverted the pro-resilient phenotype in adult early-stressed mice or mimicked behavioral resilience in adult control animals.This is the first evidence showing how pro-resilience behavior induced by early events is linked to a long-lasting reduction of Ih current and excitability in VTA dopaminergic neurons.

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