Dendrimer nanotherapy targeting of glial dysfunction improves inflammation and neurobehavioral phenotype in adult female Mecp2-heterozygous mouse model of Rett syndrome

Elizabeth Smith Khoury, Ruchit V. Patel, Caroline O'Ferrall, Amanda Fowler, Nirnath Sah, Anjali Sharma, Siddharth Gupta, Susanna Scafidi, Joshua S. Kurtz, Sarah J. Olmstead, Sapna R. Kudchadkar, Rangaramanujam M. Kannan, Mary E. Blue, Sujatha Kannan

Research output: Contribution to journalArticlepeer-review

Abstract

Rett syndrome is an X-linked neurodevelopmental disorder caused by mutation of Mecp2 gene and primarily affects females. Glial cell dysfunction has been implicated in in Rett syndrome (RTT) both in patients and in mouse models of this disorder and can affect synaptogenesis, glial metabolism and inflammation. Here we assessed whether treatment of adult (5–6 months old) symptomatic Mecp2-heterozygous female mice with N-acetyl cysteine conjugated to dendrimer (D-NAC), which is known to target glia and modulate inflammation and oxidative injury, results in improved behavioral phenotype, sleep and glial inflammatory profile. We show that unbiased global metabolomic analysis of the hippocampus and striatum in adult Mecp2-heterozygous mice demonstrates significant differences in lipid metabolism associated with neuroinflammation, providing the rationale for targeting glial inflammation in this model. Our results demonstrate that treatment with D-NAC (10 mg/kg NAC) once weekly is more efficacious than equivalently dosed free NAC in improving the gross neurobehavioral phenotype in symptomatic Mecp2-heterozygous female mice. We also show that D-NAC therapy is significantly better than saline in ameliorating several aspects of the abnormal phenotype including paw clench, mobility, fear memory, REM sleep and epileptiform activity burden. Systemic D-NAC significantly improves microglial proinflammatory cytokine production and is associated with improvements in several aspects of the phenotype including paw clench, mobility, fear memory, and REM sleep, and epileptiform activity burden in comparison to saline-treated Mecp2-hetereozygous mice. Systemic glial-targeted delivery of D-NAC after symptom onset in an older clinically relevant Rett syndrome model shows promise in improving neurobehavioral impairments along with sleep pattern and epileptiform activity burden. These findings argue for the translational value of this approach for treatment of patients with Rett Syndrome. (Figure presented.).

Original languageEnglish (US)
Pages (from-to)841-854
Number of pages14
JournalJournal of Neurochemistry
Volume168
Issue number5
DOIs
StatePublished - May 2024

Keywords

  • epilepsy
  • glial dysfunction
  • microglia targeting
  • nanomedicine, neurodevelopmental disorders
  • preclinical studies
  • sleep dysfunction

ASJC Scopus subject areas

  • Cellular and Molecular Neuroscience
  • Biochemistry

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