The metabolite p‐cresol impairs dendritic development, synaptogenesis, and synapse function in hippocampal neurons: Implications for autism spectrum disorder

The metabolite p‐cresol impairs dendritic development, synaptogenesis, and synapse function in hippocampal neurons: Implications for autism spectrum disorder

Autism spectrum disorder (ASD) is a heterogeneous neurodevelopment disorder resulting from different etiological factors, both genetic and/or environmental. These factors can lead to abnormal neuronal development on dendrite and synaptic function at the central nervous system. Recent studies have sh...

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Bibliographic Details
Published in:Journal of neurochemistry Vol. 161; no. 4; pp. 335 - 349
Main Authors: Guzmán‐Salas, Sheyla, Weber, André, Malci, Ayse, Lin, Xiao, Herrera‐Molina, Rodrigo, Cerpa, Waldo, Dorador, Cristina, Signorelli, Janetti, Zamorano, Pedro
Format: Journal Article
Language:English
Published: England Blackwell Publishing Ltd 01-05-2022
Subjects:
Autism
Axonogenesis
bacterial metabolite
Calcium
Calcium (intracellular)
Cell culture
Cell lines
Central nervous system
Children
Cresol
Cytology
dendrite outgrowth
Dendritic branching
Dendritic structure
Density
Dysbacteriosis
Etiology
Hippocampus
Intestinal microflora
Intestine
Metabolites
Microbiota
Nervous system
Neurodevelopment
Neurodevelopmental disorders
Neurons
Pheochromocytoma cells
p‐cresol
synapses
Synaptic density
Synaptogenesis
Tyrosine
bacterial metabolite
synapses
p-cresol
autism
dendrite outgrowth
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Summary:Autism spectrum disorder (ASD) is a heterogeneous neurodevelopment disorder resulting from different etiological factors, both genetic and/or environmental. These factors can lead to abnormal neuronal development on dendrite and synaptic function at the central nervous system. Recent studies have shown that a subset of ASD patients display increased circulation levels of the tyrosine metabolite, p‐cresol, related to chronic intestinal disorders because of dysbiosis of the intestinal microbiota. In particular, abnormal presence of intestinal Clostridium sp. has been linked to high levels of p‐cresol in ASD children younger than 8 years. However, the role of p‐cresol during development of the central nervous system is unknown. Here, we evaluated in vitro the effect of p‐cresol on neurite outgrowth in N2a and PC12 cell lines and dendritic morphology, synaptic density, neuronal activity, and calcium responses in primary rat hippocampal neurons. p‐cresol inhibits neural differentiation and neurites outgrowth in N2a and PC12 neuronal cell lines. In hippocampal neuronal cultures, Sholl's analysis shows a decrease in the dendritic arborization of neurons treated with p‐cresol. Synaptic density analyzed with the synaptic markers Piccolo and Shank2 is diminished in hippocampal neurons treated with p‐cresol. Electrically evoked intracellular calcium rise was drastically, but reversely, blocked by p‐cresol, whereas that spontaneous neuronal activity was severely affected by early addition of the metabolite. These findings show that p‐cresol alters dendrite development, synaptogenesis, and synapse function of neurons in culture, therefore, neuronal alterations occurring in ASD children may be related to this metabolite and dysbiosis of the intestinal microbiota. p‐cresol is an intestinal bacterial metabolite found elevated in children with autism spectrum disorder (ASD). We evaluated the effect of p‐cresol on neurite outgrowth, neuronal arborization, synaptic density, neuronal activity, and calcium responses in neuronal cells in vitro. p‐cresol inhibits neural differentiation and neurites outgrowth in neuronal cell lines and decrease dendritic arborization, synaptic density and alter neuronal activity in rat hippocampal neurons. These findings suggest that neuronal alterations occurring in ASD children may be related to this metabolite and the intestinal dysbiosis sometimes present in these children.
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ISSN:0022-3042
1471-4159
DOI:10.1111/jnc.15604