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Reversal of neurological deficits by painless nerve growth factor in a mouse model of Rett syndrome

Alexia Tiberi, Giulia Borgonovo, Giovanna Testa, Paola Pacifico, Ajesh Jacob, Mariachiara Di Caprio, Valentino Totaro, Mariantonietta Calvello, Antonino Cattaneo, Simona Capsoni

2023Brain11 citationsDOIOpen Access PDF

Abstract

Rett syndrome is a rare genetic neurodevelopmental disease, affecting 1 in over 10 000 females born worldwide, caused by de novo mutations in the X-chromosome-located methyl-CpG-binding protein 2 (MeCP2) gene. Despite the great effort put forth by the scientific community, a therapy for this devastating disease is still needed. Here, we tested the therapeutic effects of a painless mutein of the nerve growth factor (NGF), called human NGF painless (hNGFp), via a non-invasive intranasal delivery in female MeCP2+/- mice. Of note, previous work had demonstrated a broad biodistribution of hNGFp in the mouse brain by the nasal delivery route. We report that (i) the long-term lifelong treatment of MeCP2+/- mice with hNGFp, starting at 2 months of age, increased the chance of survival while also greatly improving behavioural parameters. Furthermore, when we assessed the phenotypic changes brought forth by (ii) a short-term 1-month-long hNGFp-treatment, starting at 3 months of age (right after the initial presentation of symptoms), we observed the rescue of a well known neuronal target population of NGF, cholinergic neurons in the medial septum. Moreover, we reveal a deficit in microglial morphology in MeCP2+/- mice, completely reversed in treated animals. This effect on microglia is in line with reports showing microglia to be a TrkA-dependent non-neuronal target cell population of NGF in the brain. To understand the immunomodulatory activity of hNGFp, we analysed the cytokine profile after hNGFp treatment in MeCP2+/- mice, to discover that the treatment recovered the altered expression of key neuroimmune-communication molecules, such as fractalkine. The overall conclusion is that hNGFp delivered intranasally can ameliorate symptoms in the MeCP2+/- model of Rett syndrome, by exerting strong neuroprotection with a dual mechanism of action: directly on target neurons and indirectly via microglia.

Topics & Concepts

MECP2Nerve growth factorMicrogliaMedicineRett syndromePopulationCholinergic neuronNeuroscienceCholinergicBiologyInternal medicinePhenotypeInflammationGeneticsReceptorGeneEnvironmental healthGenetics and Neurodevelopmental DisordersNeurogenesis and neuroplasticity mechanismsAdenosine and Purinergic Signaling
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