Sen Long scite author profile

Autism spectrum disorder (ASD) is a prevalent and complex neurodevelopmental disorder which has strong genetic basis. Despite the rapidly rising incidence of autism, little is known about its aetiology, risk factors, and disease progression. There are currently neither validated biomarkers for diagnostic screening nor specific medication for autism. Over the last two decades, there have been remarkable advances in genetics, with hundreds of genes identified and validated as being associated with a high risk for autism. The convergence of neuroscience methods is becoming more widely recognized for its significance in elucidating the pathological mechanisms of autism. Efforts have been devoted to exploring the behavioural functions, key pathological mechanisms and potential treatments of autism. Here, as we highlight in this review, emerging evidence shows that signal transduction molecular events are involved in pathological processes such as transcription, translation, synaptic transmission, epigenetics and immunoinflammatory responses. This involvement has important implications for the discovery of precise molecular targets for autism. Moreover, we review recent insights into the mechanisms and clinical implications of signal transduction in autism from molecular, cellular, neural circuit, and neurobehavioural aspects. Finally, the challenges and future perspectives are discussed with regard to novel strategies predicated on the biological features of autism.

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Melatonin reverses the decreases in hippocampal protein serine/threonine kinases observed in an animal model of autism

Tian

Yabuki

Moriguchi

et al. 2013

Journal of Pineal Research

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Lower global cognitive function scores are a common symptom of autism spectrum disorders (ASDs). This study investigates the effects of melatonin on hippocampal serine/threonine kinase signaling in an experimental ASD model. We found that chronic melatonin (1.0 or 5.0 mg/kg/day, 28 days) treatment significantly rescued valproic acid (VPA, 600 mg/kg)-induced decreases in CaMKII (Thr286), NMDAR1 (Ser896), and PKA (Thr197) phosphorylation in the hippocampus without affecting total protein levels. Compared with control rats, the immunostaining of pyramidal neurons in the hippocampus revealed a decrease in immunolabeling intensity for phospho-CaMKII (Thr286) in the hippocampus of VPA-treated rats, which was ameliorated by chronic melatonin treatment. Consistent with the elevation of CaMKII/PKA/PKC phosphorylation observed in melatonin-treated rat, long-term potentiation (LTP) was enhanced after chronic melatonin (5.0 mg/kg) treatment, as reflected by extracellular field potential slopes that increased from 56 to 60 min (133.4 ± 3.9% of the baseline, P < 0.01 versus VPA-treated rats) following high-frequency stimulation (HFS) in hippocampal slices. Accordingly, melatonin treatment also significantly improved social behavioral deficits at postnatal day 50 in VPA-treated rats. Taken together, the increased phosphorylation of CaMKII/PKA/PKC signaling might contribute to the beneficial effects of melatonin on autism symptoms.

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Functional Genomic Analyses Identify Pathways Dysregulated in Animal Model of Autism

et al. 2016

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Cathepsin B inhibition ameliorates leukocyte‐endothelial adhesion in the BTBR mouse model of autism

et al. 2018

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Summary Aims Autism spectrum disorder (ASD) is a wide range of neurodevelopmental disorders involving deficits in social interaction and communication. Unfortunately, autism remains a scientific and clinical challenge owing to the lack of understanding the cellular and molecular mechanisms underlying it. This study aimed to investigate the pathophysiological mechanism underlying leukocyte‐endothelial adhesion in autism‐related neurovascular inflammation. Methods Male BTBR T+tf/J mice were used as an autism model. The dynamic pattern of leukocyte‐endothelial adhesion in mouse cerebral vessels was detected by two‐photon laser scanning microscopy (TPLSM). Using FACS, RT‐PCR, and Western blotting, we explored the expression of cell adhesion molecules, the mRNA expression of endothelial chemokine, the protein levels of cathepsin B, and inflammatory mediators. Results We found a significant increase in leukocyte‐endothelial adhesion in BTBR mice, accompanied by elevated expression of the adhesion molecule neutrophils CD11b and endothelial ICAM‐1. Our data further indicate that elevated neutrophil cathepsin B levels contribute to elevated endothelial chemokine CXCL7 levels in BTBR mice. The pharmacological inhibition of cathepsin B reverses the enhanced leukocyte‐endothelial adhesion in the cerebral vessels of autistic mice. Conclusion Our results revealed the prominent role of cathepsin B in modulating leukocyte‐endothelial adhesion during autism‐related neurovascular inflammation and identified a promising novel approach for autism treatment.

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Sen Long

Signalling pathways in autism spectrum disorder: mechanisms and therapeutic implications

Melatonin reverses the decreases in hippocampal protein serine/threonine kinases observed in an animal model of autism

Functional Genomic Analyses Identify Pathways Dysregulated in Animal Model of Autism

Cathepsin B inhibition ameliorates leukocyte‐endothelial adhesion in the BTBR mouse model of autism

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