The atypical Rho GTPase Rnd2 is critical for dentate granule neuron development and anxiety-like behavior during adult but not neonatal neurogenesis

Thomas Kerloch,Emilie Pacary,François Guillemot,Hélène Doat,David Perrais,Muriel Koehl,Fanny Farrugia,Mylène Blanchard,Delphine Gonzales,Julian Ik-Tsen Heng,Djoher Nora Abrous,Adeline Goron,Geoffrey Terral,Lou Bouit,Pierre Mortessagne,Thierry Leste-Lasserre,Marlène Maître

doi:10.1038/s41380-021-01301-z

Thomas Kerloch, Emilie Pacary + Show 15 more

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Despite the central role of Rho GTPases in neuronal development, their functions in adult hippocampal neurogenesis remain poorly explored. Here, by using a retrovirus-based loss-of-function approach in vivo, we show that the atypical Rho GTPase Rnd2 is crucial for survival, positioning, somatodendritic morphogenesis, and functional maturation of adult-born dentate granule neurons. Interestingly, most of these functions are specific to granule neurons generated during adulthood since the deletion of Rnd2 in neonatally-born granule neurons only affects dendritogenesis. In addition, suppression of Rnd2 in adult-born dentate granule neurons increases anxiety-like behavior whereas its deletion in pups has no such effect, a finding supporting the adult neurogenesis hypothesis of anxiety disorders. Thus, our results are in line with the view that adult neurogenesis is not a simple continuation of earlier processes from development, and establish a causal relationship between Rnd2 expression and anxiety.

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Neurogenesis was believed to be restricted to embryonic and early postnatal periods in the mammalian brain
In the adult brain, Rnd2 shows a different pattern of expression compared to other members of the Rnd family, Criteria of exclusion Most tests used in this study rely on exploration and locomotor activity, total distance traveled in these tests was used as an index of locomotor activity
For example mice that did not swim and instantly started floating during the Morris Water Maze (MWM) and the Forced swim test (FST) would be excluded for the final analysis of performances, as well as mice that did not leave the cylinder in the emergence test

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Introduction

Neurogenesis was believed to be restricted to embryonic and early postnatal periods in the mammalian brain. Over the last 20 years, research has firmly established that new neurons are continuously born throughout the lifespan of mammals, especially in the hippocampal dentate gyrus (DG) [1]. The majority of dentate granule neurons (DGNs) are generated in early postnatal life, new DGNs continue to be produced throughout adulthood in mammals albeit at lower rates [2, 3], including in humans [4,5,6,7]. Only a few newborn cells are incorporated into the DG circuitry since the majority of these cells undergo apoptosis at the immature neuron stage [11, 12]

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