Gowri Nayak scite author profile

The two compositionally distinct extracellular cochlear fluids, endolymph and perilymph, are separated by tight junctions that outline the scala media and reticular lamina. Mutations in TRIC (also known as MARVELD2), which encodes a tricellular tight junction protein known as tricellulin, lead to nonsyndromic hearing loss (DFNB49). We generated a knockin mouse that carries a mutation orthologous to the TRIC coding mutation linked to DFNB49 hearing loss in humans. Tricellulin was absent from the tricellular junctions in the inner ear epithelia of the mutant animals, which developed rapidly progressing hearing loss accompanied by loss of mechanosensory cochlear hair cells, while the endocochlear potential and paracellular permeability of a biotin-based tracer in the stria vascularis were unaltered. Freeze-fracture electron microscopy revealed disruption of the strands of intramembrane particles connecting bicellular and tricellular junctions in the inner ear epithelia of tricellulin-deficient mice. These ultrastructural changes may selectively affect the paracellular permeability of ions or small molecules, resulting in a toxic microenvironment for cochlear hair cells. Consistent with this hypothesis, hair cell loss was rescued in tricellulin-deficient mice when generation of normal endolymph was inhibited by a concomitant deletion of the transcription factor, Pou3f4. Finally, comprehensive phenotypic screening showed a broader pathological phenotype in the mutant mice, which highlights the non-redundant roles played by tricellulin.

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Violet-light suppression of thermogenesis by opsin 5 hypothalamic neurons

Zhang

D'Souza

Upton

et al. 2020

Nature

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The opsin family of G-protein coupled receptors are employed as light detectors in animals. Opsin 5 (neuropsin, OPN5) is a highly conserved, violet light (380 nm λ max ) sensitive opsin 1 , 2 . In mice, OPN5 is a known photoreceptor in retina 3 and skin 4 but is also expressed in the hypothalamic preoptic area (POA) 5 . Here we describe a light-sensing pathway in which Opn5 expressing POA neurons regulate brown adipose tissue (BAT) thermogenesis. We show Opn5 expression in glutamatergic warm-sensing POA neurons that receive synaptic input from multiple thermoregulatory nuclei. We further show that Opn5 POA neurons project to BAT and decrease its activity under chemogenetic stimulation. Opn5 null mice show overactive BAT, elevated body temperature, and exaggerated thermogenesis when cold challenged. Moreover, violet photostimulation during cold exposure acutely suppresses BAT temperature in wild-type, but not in Opn5 null mice. Direct measurements of intracellular cAMP ex vivo reveal that Opn5 POA neurons increase cAMP when stimulated with violet light. This analysis thus identifies a violet light sensitive deep brain photoreceptor that normally suppresses BAT thermogenesis.

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Development of the hair bundle and mechanotransduction

Nayak

Ratnayaka²,

Goodyear³

et al. 2007

Int. J. Dev. Biol.

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This review focuses on the cellular and molecular mechanisms underlying the development of the sensory hair bundle, an apical specialisation of the hair cell that is essential for mechanotransduction. The structure, function and development of the hair bundle is described, with an emphasis on the properties and possible roles played by the different link types that interconnect the individual elements of the hair bundle -the multiple stereocilia and the single kinocilium. Studies of mouse and zebrafish mutants have revealed that several classes of molecule are required for the genesis and maintenance of hair-bundle structure. These include cell surface molecules that are associated with the different hair-bundle links, along with myosin motors, scaffolding proteins and an actin cross-linker. Finally we consider how differences in the form and shape of hair bundles within and between different sensory organs are generated.

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An opsin 5–dopamine pathway mediates light-dependent vascular development in the eye

et al. 2019

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BAU, NA, SR and UT performed experimental analysis. MB designed and built the required lighting systems. MD and ZK provided essential tools. M-TN, SV, GN, YO, EB, SR, RSH, PMI and RNVG designed experiments and provided coordinating leadership within the collaborative group. M-TN, SV, GN EB, PMI, RNVG and RAL wrote the paper. RAL designed experimental analysis and provided overall project leadership.

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Adaptive Thermogenesis in Mice Is Enhanced by Opsin 3-Dependent Adipocyte Light Sensing

et al. 2020

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Aurora A and Aurora B jointly coordinate chromosome segregation and anaphase microtubule dynamics

Hégarat

Smith

Nayak

et al. 2011

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Developmental vascular regression is regulated by a Wnt/β-catenin, MYC, P21 (CDKN1A) pathway that controls cell proliferation and cell death

Nayak

Odaka

Prasad

et al. 2018

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Normal development requires tight regulation of cell proliferation and cell death. Here, we have investigated these control mechanisms in the hyaloid vessels, a temporary vascular network in the mammalian eye that requires a Wnt/β-catenin response for scheduled regression. We investigated whether the hyaloid Wnt response was linked to the oncogene , and the cyclin-dependent kinase inhibitor CDKN1A (P21), both established regulators of cell cycle progression and cell death. Our analysis showed that the Wnt pathway co-receptors LRP5 and LRP6 have overlapping activities that mediate the Wnt/β-catenin signaling in hyaloid vascular endothelial cells (VECs). We also showed that both and are downstream of the Wnt response and are required for hyaloid regression but for different reasons. Conditional deletion of in VECs suppressed both proliferation and cell death. By contrast, conditional deletion of resulted in VEC overproliferation that countered the effects of cell death on regression. When combined with analysis of MYC and CDKN1A protein levels, this analysis suggests that a Wnt/β-catenin and MYC-CDKN1A pathway regulates scheduled hyaloid vessel regression.

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Molecular genetics of MARVELD2 and clinical phenotype in Pakistani and Slovak families segregating DFNB49 hearing loss

et al. 2015

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Pathogenic mutations of MARVELD2, encoding tricellulin, a tricelluar tight junction protein, cause autosomal recessive non-syndromic hearing loss (DFNB49) in families of Pakistan and Czech Roma origin. In fact, they are a significant cause of prelingual hearing loss in the Czech Roma, second only to GJB2 variants. Previously, we reported that mice homozygous for p.Arg497* variant of Marveld2 had a broad phenotypic spectrum, where defects were observed in the inner ear, heart, mandibular salivary gland, thyroid gland and olfactory epithelium. The current study describes the types and frequencies of MARVELD2 alleles and clinically reexamines members of DFNB49 families. We found that MARVELD2 variants are responsible for about 1.5% (95% CI: 0.8 – 2.6) of non-syndromic hearing loss in our cohort of 800 Pakistani families. The c.1331+2T>C allele is recurrent. In addition, we identified a novel large deletion in a single family, which appears to have resulted from non-allelic homologous recombination between two similar Alu short interspersed elements. Finally, we observed no other clinical manifestations co-segregating with hearing loss in DFNB49 human families, and hypothesize that the additional abnormalities in the Marveld2 mutant mouse indicates a critical non-redundant function for tricellulin in other organ systems.

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Gowri Nayak

Tricellulin deficiency affects tight junction architecture and cochlear hair cells

Violet-light suppression of thermogenesis by opsin 5 hypothalamic neurons

Development of the hair bundle and mechanotransduction

An opsin 5–dopamine pathway mediates light-dependent vascular development in the eye

Adaptive Thermogenesis in Mice Is Enhanced by Opsin 3-Dependent Adipocyte Light Sensing

Aurora A and Aurora B jointly coordinate chromosome segregation and anaphase microtubule dynamics

Developmental vascular regression is regulated by a Wnt/β-catenin, MYC, P21 (CDKN1A) pathway that controls cell proliferation and cell death

Molecular genetics of MARVELD2 and clinical phenotype in Pakistani and Slovak families segregating DFNB49 hearing loss

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