Analyzing the Potential Biological Determinants of Autism Spectrum Disorder: From Neuroinflammation to the Kynurenine Pathway

Analyzing the Potential Biological Determinants of Autism Spectrum Disorder: From Neuroinflammation to the Kynurenine Pathway

Autism Spectrum Disorder (ASD) etiopathogenesis is still unclear and no effective preventive and treatment measures have been identified. Research has focused on the potential role of neuroinflammation and the Kynurenine pathway; here we review the nature of these interactions. Pre-natal or neonatal...

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Main Authors: Rosa Savino, Marco Carotenuto, Anna Nunzia Polito, Sofia Di Noia, Marzia Albenzio, Alessia Scarinci, Antonio Ambrosi, Francesco Sessa, Nicola Tartaglia, Giovanni Messina
Format: Article
Language:English
Published: MDPI AG 2020-09-01
Series:Brain Sciences
Subjects:
autism spectrum disorder
neuroinflammation
Kynurenine pathway
microglia
oxidative stress
mitochondrial disorder
Online Access:https://www.mdpi.com/2076-3425/10/9/631
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spelling doaj-212dfa72d1ff49df8c6d6ca96ee6078f2020-11-25T03:54:06ZengMDPI AGBrain Sciences2076-34252020-09-011063163110.3390/brainsci10090631Analyzing the Potential Biological Determinants of Autism Spectrum Disorder: From Neuroinflammation to the Kynurenine PathwayRosa Savino0Marco Carotenuto1Anna Nunzia Polito2Sofia Di Noia3Marzia Albenzio4Alessia Scarinci5Antonio Ambrosi6Francesco Sessa7Nicola Tartaglia8Giovanni Messina9Department of Woman and Child, Neuropsychiatry for Child and Adolescent Unit, General Hospital “Riuniti” of Foggia, 71122 Foggia, ItalyDepartment of Mental Health, Physical and Preventive Medicine, Clinic of Child and Adolescent Neuropsychiatry, Università degli Studi della Campania “Luigi Vanvitelli”, 81100 Caserta, ItalyDepartment of Woman and Child, Neuropsychiatry for Child and Adolescent Unit, General Hospital “Riuniti” of Foggia, 71122 Foggia, ItalyDepartment of Woman and Child, Neuropsychiatry for Child and Adolescent Unit, General Hospital “Riuniti” of Foggia, 71122 Foggia, ItalyDepartment of the Sciences of Agriculture, Food and Environment, University of Foggia, Via Napoli 25, 71100 Foggia, ItalyDepartment of Education Sciences, Psychology and Communication, University of Bari, 70121 Bari, ItalyDepartment of Medical and Surgical Sciences, University of Foggia, Viale Pinto, 71122 Foggia, ItalyDepartment of Clinical and Experimental Medicine, University of Foggia, 71122 Foggia, ItalyDepartment of Medical and Surgical Sciences, University of Foggia, Viale Pinto, 71122 Foggia, ItalyDepartment of Clinical and Experimental Medicine, University of Foggia, 71122 Foggia, ItalyAutism Spectrum Disorder (ASD) etiopathogenesis is still unclear and no effective preventive and treatment measures have been identified. Research has focused on the potential role of neuroinflammation and the Kynurenine pathway; here we review the nature of these interactions. Pre-natal or neonatal infections would induce microglial activation, with secondary consequences on behavior, cognition and neurotransmitter networks. Peripherally, higher levels of pro-inflammatory cytokines and anti-brain antibodies have been identified. Increased frequency of autoimmune diseases, allergies, and recurring infections have been demonstrated both in autistic patients and in their relatives. Genetic studies have also identified some important polymorphisms in chromosome loci related to the human leukocyte antigen (HLA) system. The persistence of immune-inflammatory deregulation would lead to mitochondrial dysfunction and oxidative stress, creating a self-sustaining cytotoxic loop. Chronic inflammation activates the Kynurenine pathway with an increase in neurotoxic metabolites and excitotoxicity, causing long-term changes in the glutamatergic system, trophic support and synaptic function. Furthermore, overactivation of the Kynurenine branch induces depletion of melatonin and serotonin, worsening ASD symptoms. Thus, in genetically predisposed subjects, aberrant neurodevelopment may derive from a complex interplay between inflammatory processes, mitochondrial dysfunction, oxidative stress and Kynurenine pathway overexpression. To validate this hypothesis a new translational research approach is necessary.https://www.mdpi.com/2076-3425/10/9/631autism spectrum disorderneuroinflammationKynurenine pathwaymicrogliaoxidative stressmitochondrial disorder
collection DOAJ
language English
format Article
sources DOAJ
author Rosa Savino
Marco Carotenuto
Anna Nunzia Polito
Sofia Di Noia
Marzia Albenzio
Alessia Scarinci
Antonio Ambrosi
Francesco Sessa
Nicola Tartaglia
Giovanni Messina
spellingShingle Rosa Savino
Marco Carotenuto
Anna Nunzia Polito
Sofia Di Noia
Marzia Albenzio
Alessia Scarinci
Antonio Ambrosi
Francesco Sessa
Nicola Tartaglia
Giovanni Messina
Analyzing the Potential Biological Determinants of Autism Spectrum Disorder: From Neuroinflammation to the Kynurenine Pathway
Brain Sciences
autism spectrum disorder
neuroinflammation
Kynurenine pathway
microglia
oxidative stress
mitochondrial disorder
author_facet Rosa Savino
Marco Carotenuto
Anna Nunzia Polito
Sofia Di Noia
Marzia Albenzio
Alessia Scarinci
Antonio Ambrosi
Francesco Sessa
Nicola Tartaglia
Giovanni Messina
author_sort Rosa Savino
title Analyzing the Potential Biological Determinants of Autism Spectrum Disorder: From Neuroinflammation to the Kynurenine Pathway
title_short Analyzing the Potential Biological Determinants of Autism Spectrum Disorder: From Neuroinflammation to the Kynurenine Pathway
title_full Analyzing the Potential Biological Determinants of Autism Spectrum Disorder: From Neuroinflammation to the Kynurenine Pathway
title_fullStr Analyzing the Potential Biological Determinants of Autism Spectrum Disorder: From Neuroinflammation to the Kynurenine Pathway
title_full_unstemmed Analyzing the Potential Biological Determinants of Autism Spectrum Disorder: From Neuroinflammation to the Kynurenine Pathway
title_sort analyzing the potential biological determinants of autism spectrum disorder: from neuroinflammation to the kynurenine pathway
publisher MDPI AG
series Brain Sciences
issn 2076-3425
publishDate 2020-09-01
description Autism Spectrum Disorder (ASD) etiopathogenesis is still unclear and no effective preventive and treatment measures have been identified. Research has focused on the potential role of neuroinflammation and the Kynurenine pathway; here we review the nature of these interactions. Pre-natal or neonatal infections would induce microglial activation, with secondary consequences on behavior, cognition and neurotransmitter networks. Peripherally, higher levels of pro-inflammatory cytokines and anti-brain antibodies have been identified. Increased frequency of autoimmune diseases, allergies, and recurring infections have been demonstrated both in autistic patients and in their relatives. Genetic studies have also identified some important polymorphisms in chromosome loci related to the human leukocyte antigen (HLA) system. The persistence of immune-inflammatory deregulation would lead to mitochondrial dysfunction and oxidative stress, creating a self-sustaining cytotoxic loop. Chronic inflammation activates the Kynurenine pathway with an increase in neurotoxic metabolites and excitotoxicity, causing long-term changes in the glutamatergic system, trophic support and synaptic function. Furthermore, overactivation of the Kynurenine branch induces depletion of melatonin and serotonin, worsening ASD symptoms. Thus, in genetically predisposed subjects, aberrant neurodevelopment may derive from a complex interplay between inflammatory processes, mitochondrial dysfunction, oxidative stress and Kynurenine pathway overexpression. To validate this hypothesis a new translational research approach is necessary.
topic autism spectrum disorder
neuroinflammation
Kynurenine pathway
microglia
oxidative stress
mitochondrial disorder
url https://www.mdpi.com/2076-3425/10/9/631
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