Aileen A Nava scite author profile

Aileen A Nava

3Publications

23Citation Statements Received

286Citation Statements Given

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272

Affiliations

University of California, Los Angeles, Broad Center

Publications

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Novel C1q receptor-mediated signaling controls neural stem cell behavior and neurorepair

Benavente

Piltti²,

Hooshmand³

et al. 2020

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C1q plays a key role as a recognition molecule in the immune system, driving autocatalytic complement cascade activation and acting as an opsonin. We have previously reported a non-immune role of complement C1q modulating the migration and fate of human neural stem cells (hNSC); however, the mechanism underlying these effects has not yet been identified. Here, we show for the first time that C1q acts as a functional hNSC ligand, inducing intracellular signaling to control cell behavior. Using an unbiased screening strategy, we identified five transmembrane C1q signaling/receptor candidates in hNSC (CD44, GPR62, BAI1, c-MET, and ADCY5). We further investigated the interaction between C1q and CD44 , demonstrating that CD44 mediates C1q induced hNSC signaling and chemotaxis in vitro, and hNSC migration and functional repair in vivo after spinal cord injury. These results reveal a receptor-mediated mechanism for C1q modulation of NSC behavior and show that modification of C1q receptor expression can expand the therapeutic window for hNSC transplantation.

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The omics era: a nexus of untapped potential for Mendelian chromatinopathies

Nava

Arboleda

2023

Hum. Genet.

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The OMICs cascade describes the hierarchical flow of information through biological systems. The epigenome sits at the apex of the cascade, thereby regulating the RNA and protein expression of the human genome and governs cellular identity and function. Genes that regulate the epigenome, termed epigenes, orchestrate complex biological signaling programs that drive human development. The broad expression patterns of epigenes during human development mean that pathogenic germline mutations in epigenes can lead to clinically significant multi-system malformations, developmental delay, intellectual disabilities, and stem cell dysfunction. In this review, we refer to germline developmental disorders caused by epigene mutation as “chromatinopathies”. We curated the largest number of human chromatinopathies to date and our expanded approach more than doubled the number of established chromatinopathies to 179 disorders caused by 148 epigenes. Our study revealed that 20.6% (148/720) of epigenes cause at least one chromatinopathy. In this review, we highlight key examples in which OMICs approaches have been applied to chromatinopathy patient biospecimens to identify underlying disease pathogenesis. The rapidly evolving OMICs technologies that couple molecular biology with high-throughput sequencing or proteomics allow us to dissect out the causal mechanisms driving temporal-, cellular-, and tissue-specific expression. Using the full repertoire of data generated by the OMICs cascade to study chromatinopathies will provide invaluable insight into the developmental impact of these epigenes and point toward future precision targets for these rare disorders.

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Author response: Novel C1q receptor-mediated signaling controls neural stem cell behavior and neurorepair

Benavente

Piltti²,

Hooshmand³

et al. 2020

View full text Add to dashboard Cite

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Aileen A Nava

Novel C1q receptor-mediated signaling controls neural stem cell behavior and neurorepair

The omics era: a nexus of untapped potential for Mendelian chromatinopathies

Author response: Novel C1q receptor-mediated signaling controls neural stem cell behavior and neurorepair

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