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Neonatal apneic phenotype in a murine congenital central hypoventilation syndrome model is induced through non-cell autonomous developmental mechanisms

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Autor(es):
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Alzate-Correa, Diego [1] ; Liu, Jillian Mei-ling [1] ; Jones, Mikayla [1] ; Silva, Talita M. [2] ; Alves, Michele Joana [1] ; Burke, Elizabeth [1] ; Zuniga, Jessica [1] ; Kaya, Behiye [1] ; Zaza, Giuliana [1] ; Aslan, Mehmet Tahir [1] ; Blackburn, Jessica [1] ; Shimada, Marina Y. [2] ; Fernandes-Junior, Silvio A. [3] ; Baer, Lisa A. [4] ; Stanford, I, Kristin ; Kempton, Amber [5] ; Smith, Sakima [5] ; Szujewski, Caroline C. [6] ; Silbaugh, Abby [6] ; Viemari, Jean-Charles [7] ; Takakura, Ana C. [3] ; Garcia, III, Alfredo J. ; Moreira, Thiago S. [2] ; Czeisler, Catherine M. [1] ; Otero, Jose J. [1]
Número total de Autores: 25
Afiliação do(s) autor(es):
[1] Ohio State Univ, Dept Pathol, Div Neuropathol, Coll Med, Columbus, OH 43210 - USA
[2] Univ Sao Paulo, Inst Biomed Sci, Dept Physiol & Biophys, Sao Paulo - Brazil
[3] Univ Sao Paulo, Inst Biomed Sci, Dept Pharmacol, Sao Paulo - Brazil
[4] I, Ohio State Univ, Dept Physiol & Cell Biol, Coll Med, Columbus, OH 43210 - USA
[5] Ohio State Univ, Dept Internal Med, Coll Med, Columbus, OH 43210 - USA
[6] III, Univ Chicago, Comm Neurobiol, Grossman Inst Neurosci Quantitat Biol & Human Beh, Inst Integrat Physiol, Chicago, IL 60637 - USA
[7] Inst Neurosci la Timone, UMR AMU 7289, P3M Team, CNRS, Marseille - France
Número total de Afiliações: 7
Tipo de documento: Artigo Científico
Fonte: Brain Pathology; v. 31, n. 1 AUG 2020.
Citações Web of Science: 3
Resumo

Congenital central hypoventilation syndrome (CCHS) represents a rare genetic disorder usually caused by mutations in the homeodomain transcription factorPHOX2B. Some CCHS patients suffer mainly from deficiencies in CO(2)and/or O(2)respiratory chemoreflex, whereas other patients present with full apnea shortly after birth. Our goal was to identify the neuropathological mechanisms of apneic presentations in CCHS. In the developing murine neuroepithelium,Phox2bis expressed in three discrete progenitor domains across the dorsal-ventral axis, with different domains responsible for producing unique autonomic or visceral motor neurons. Restricting the expression of mutantPhox2bto the ventral visceral motor neuron domain induces marked newborn apnea together with a significant loss of visceral motor neurons, RTN ablation, andpreBotzingercomplex dysfunction. This finding suggests that the observed apnea develops through non-cell autonomous developmental mechanisms. MutantPhox2bexpression in dorsal rhombencephalic neurons did not generate significant respiratory dysfunction, but did result in subtle metabolic thermoregulatory deficiencies. We confirm the expression of a novel murinePhox2bsplice variant which shares exons 1 and 2 with the more widely studiedPhox2bsplice variant, but which differs in exon 3 where most CCHS mutations occur. We also show that mutantPhox2bexpression in the visceral motor neuron progenitor domain increases cell proliferation at the expense of visceral motor neuron development. We propose that visceral motor neurons may function as organizers of brainstem respiratory neuron development, and that disruptions in their development result in secondary/non-cell autonomous maldevelopment of key brainstem respiratory neurons. (AU)

Processo FAPESP: 15/23376-1 - Núcleo retrotrapezóide, quimiossensibilidade central e automaticidade respiratória
Beneficiário:Thiago dos Santos Moreira
Modalidade de apoio: Auxílio à Pesquisa - Temático
Processo FAPESP: 17/12678-2 - Participação dos astrócitos localizados na superfície ventrolateral do bulbo nas respostas ventilatórias à hipercapnia e hipóxia
Beneficiário:Talita de Melo e Silva
Modalidade de apoio: Bolsas no Brasil - Pós-Doutorado
Processo FAPESP: 16/23281-3 - Regiões encefálicas responsáveis pela neuroplasticidade observada na resposta respiratória induzida por hipercapnia em modelo animal de Doença de Parkinson
Beneficiário:Ana Carolina Takakura Moreira
Modalidade de apoio: Auxílio à Pesquisa - Regular