A Brain Region-Specific Predictive Gene Map for Autism Derived by Profiling a Reference Gene Set

Kumar, Ajay; Swanwick, Catherine Croft; Johnson, Nicole V.; Menashe, Idan; Basu, Sharmila; Bales, Michael E.; Banerjee-Basu, Sharmila

doi:10.1371/journal.pone.0028431

Cited by 19 publications

(18 citation statements)

References 69 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Some regions of the cerebral cortex are also highlighted by the second clique ( Figure 5 ), but to a lesser extent than the cerebellar cortex. Another recent study of our group examining the expression of the same autism gene set (AutRef84) in different human tissues, found a statistically significant enrichment in the frontal cortex [44]. The cerebral cortex was highlighted in other neuroanatomical studies of autism in both human [45], [46] and mouse [47] and is known to play a central role in cognitive and emotional processing [48], which are key deficits in autism and other neuropsychiatric disorders.…”

Section: Discussionmentioning

confidence: 95%

Co-expression Profiling of Autism Genes in the Mouse Brain

et al. 2013

Self Cite

View full text Add to dashboard Cite

Autism spectrum disorder (ASD) is one of the most prevalent and highly heritable neurodevelopmental disorders in humans. There is significant evidence that the onset and severity of ASD is governed in part by complex genetic mechanisms affecting the normal development of the brain. To date, a number of genes have been associated with ASD. However, the temporal and spatial co-expression of these genes in the brain remain unclear. To address this issue, we examined the co-expression network of 26 autism genes from AutDB (http://mindspec.org/autdb.html), in the framework of 3,041 genes whose expression energies have the highest correlation between the coronal and sagittal images from the Allen Mouse Brain Atlas database (http://mouse.brain-map.org). These data were derived from in situ hybridization experiments conducted on male, 56-day old C57BL/6J mice co-registered to the Allen Reference Atlas, and were used to generate a normalized co-expression matrix indicating the cosine similarity between expression vectors of genes in this database. The network formed by the autism-associated genes showed a higher degree of co-expression connectivity than seen for the other genes in this dataset (Kolmogorov–Smirnov P = 5×10−28). Using Monte Carlo simulations, we identified two cliques of co-expressed genes that were significantly enriched with autism genes (A Bonferroni corrected P<0.05). Genes in both these cliques were significantly over-expressed in the cerebellar cortex (P = 1×10−5) suggesting possible implication of this brain region in autism. In conclusion, our study provides a detailed profiling of co-expression patterns of autism genes in the mouse brain, and suggests specific brain regions and new candidate genes that could be involved in autism etiology.

show abstract

Section: Discussionmentioning

confidence: 95%

Co-expression Profiling of Autism Genes in the Mouse Brain

et al. 2013

Self Cite

View full text Add to dashboard Cite

show abstract

“…Abnormal functional connectivity can be caused by changes in synapse formation, function, and or abnormal synaptic pruning, which are also associated with developmental disorders (Derecki et al, 2012; State and Šestan, 2012; Tang et al, 2014; Washbourne, 2015). Also, variations in genes encoding for synaptic scaffolding proteins and proteins associated with synaptic transmission across cortical regions have been linked to neurodevelopmental disorders (Bourgeron, 2009; Kumar et al, 2011; Voineagu et al, 2011). As we have described in this review, both microglia and astrocytes play important roles in synaptogenesis and pruning and are thus, not surprisingly, found to be involved in the pathogenesis of neurodevelopmental disorders.…”

Section: Is There a Causal Role For Glia In Neurodevelopmental Disordmentioning

confidence: 99%

The Indispensable Roles of Microglia and Astrocytes during Brain Development

Reemst

Noctor

Lucassen

et al. 2016

Front. Hum. Neurosci.

413

387

View full text Add to dashboard Cite

Glia are essential for brain functioning during development and in the adult brain. Here, we discuss the various roles of both microglia and astrocytes, and their interactions during brain development. Although both cells are fundamentally different in origin and function, they often affect the same developmental processes such as neuro-/gliogenesis, angiogenesis, axonal outgrowth, synaptogenesis and synaptic pruning. Due to their important instructive roles in these processes, dysfunction of microglia or astrocytes during brain development could contribute to neurodevelopmental disorders and potentially even late-onset neuropathology. A better understanding of the origin, differentiation process and developmental functions of microglia and astrocytes will help to fully appreciate their role both in the developing as well as in the adult brain, in health and disease.

show abstract

“…Genes involved in neuronal cell adhesion and synaptic scaffolding are collectively the most prevalent genes found to date in genome-wide association studies (GWASs) of NDDs (Corvin, 2010;Kumar et al, 2011;O'Dushlaine et al, 2011). This suggests that cell adhesion events are critical for the correct assembly of synapses ( Figure 1, top left).…”

Section: Neuronal Contactmentioning

confidence: 99%