Jason J. Gokey scite author profile

The respiratory system undergoes a diversity of structural, biochemical, and functional changes necessary for adaptation to air breathing at birth. To identify the heterogeneity of pulmonary cell types and dynamic changes in gene expression mediating adaptation to respiration, here we perform single cell RNA analyses of mouse lung on postnatal day 1. Using an iterative cell type identification strategy we unbiasedly identify the heterogeneity of murine pulmonary cell types. We identify distinct populations of epithelial, endothelial, mesenchymal, and immune cells, each containing distinct subpopulations. Furthermore we compare temporal changes in RNA expression patterns before and after birth to identify signaling pathways selectively activated in specific pulmonary cell types, including activation of cell stress and the unfolded protein response during perinatal adaptation of the lung. The present data provide a single cell view of the adaptation to air breathing after birth.

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Active epithelial Hippo signaling in idiopathic pulmonary fibrosis

Gokey

Sridharan

Xu³

et al. 2018

111

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Hippo/YAP signaling plays pleiotropic roles in the regulation of cell proliferation and differentiation during organogenesis and tissue repair. Herein we demonstrate increased YAP activity in respiratory epithelial cells in lungs of patients with idiopathic pulmonary fibrosis (IPF), a common, lethal form of interstitial lung disease (ILD). Immunofluorescence staining in IPF epithelial cells demonstrated increased nuclear YAP and loss of MST1/2. Bioinformatic analyses of epithelial cell RNA profiles predicted increased activity of YAP and increased canonical mTOR/PI3K/AKT signaling in IPF. Phospho-S6 (p-S6) and p-PTEN were increased in IPF epithelial cells, consistent with activation of mTOR signaling. Expression of YAP (S127A), a constitutively active form of YAP, in human bronchial epithelial cells (HBEC3s) increased p-S6 and p-PI3K, cell proliferation and migration, processes that were inhibited by the YAP-TEAD inhibitor verteporfin. Activation of p-S6 was required for enhancing and stabilizing YAP, and the p-S6 inhibitor temsirolimus blocked nuclear YAP localization and suppressed expression of YAP target genes CTGF, AXL, and AJUBA (JUB). YAP and mTOR/p-S6 signaling pathways interact to induce cell proliferation and migration, and inhibit epithelial cell differentiation that may contribute to the pathogenesis of IPF.

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Kupffer's vesicle size threshold for robust left–right patterning of the zebrafish embryo

Gokey

Tay

et al. 2015

Developmental Dynamics

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Background Motile cilia in the ‘organ of asymmetry’ create directional fluid flows that are vital for left-right (LR) asymmetric patterning of vertebrate embryos. Organ function often depends on tightly regulated organ size control, but the role of organ of asymmetry size in LR patterning has remained unknown. Observations of the organ of asymmetry in the zebrafish —called Kupffer’s vesicle (KV)—have suggested significant variations in KV size in wild-type embryos, raising questions about the impact of KV organ size on LR patterning. Results To understand the relationship between organ of asymmetry size and its function, we characterized variations in KV at several developmental stages and in several different zebrafish strains. We found that the number of KV cilia and the size of the KV lumen were highly variable, whereas the length of KV cilia showed less variation. These variabilities were similar among different genetic backgrounds. By specifically modulating KV size and analyzing individual embryos, we identified a size threshold that is necessary for KV function. Conclusions Together these results indicate the KV organ of asymmetry size is not tightly controlled during development, but rather must only exceed a threshold to direct robust LR patterning of the zebrafish embryo.

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The Incidence and Consequences of Barotrauma in Fish in the St. Lawrence River

Schreer

Gokey

DeGhett

2009

N American J Fish Manag

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Barotrauma is increasingly being recognized as a serious conservation and management issue in catch‐and‐release fisheries. Barotrauma results from decompression that can cause physiological alterations and physical injuries. During the summers of 2007 and 2008, we angled for fish in the St. Lawrence River to determine the incidence of barotrauma injuries and the related mortality rates. An angler survey was also conducted in 2008. A total of 212 fish were caught at depths ranging from 1 to 21 m. Sixty‐three fish (30%) showed signs of barotrauma, 99% of these being smallmouth bass Micropterus dolomieu, walleyes Sander vitreus, and yellow perch Perca flavescens. These three species represented 77% of all the fish caught and, excluding round goby Neogobius melanostomus, represented 94% of the fish caught at depths greater than 6 m. Signs of barotrauma were bloating (89%), loss of equilibrium (66%), stomach eversion (62%), bulging eyes (18%), hemorrhaging in the eyes and fins (12%), and anal eversion (5%). Most fish had multiple signs, approximately 50% showing loss of equilibrium, bloating, and stomach eversion. The incidence of barotrauma increased with depth, first appearing at 6.1 m. There was a threshold at approximately 10 m, from which the incidence rapidly increased to 100% at 21 m. Mortality occurred in 67% of the fish with barotrauma, even in those with less severe signs (e.g., mild bloating and slight loss of equilibrium only when stationary) and showed a similar rate of increase starting at 9 m. There were interspecific differences in the susceptibility to barotrauma that may be related to habitat preferences and physiological and physical differences that should be considered when targeting different species and depths.

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The elephant in the lung: Integrating lineage-tracing, molecular markers, and single cell sequencing data to identify distinct fibroblast populations during lung development and regeneration

et al. 2020

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TGFBI functions similar to periostin but is uniquely dispensable during cardiac injury

et al. 2017

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Extracellular matrix production and accumulation stabilize the heart under normal conditions as well as form a protective scar after myocardial infarction injury, although excessive extracellular matrix accumulation with long-standing heart disease is pathological. In the current study we investigate the role of the matricellular protein, transforming growth factor beta-induced (TGFBI), which is induced in various forms of heart disease. Additionally, we sought to understand whether TGFBI is functionally redundant to its closely related family member periostin, which is also induced in the diseased heart. Surgical models of myocardial infarction and cardiac pressure overload were used in mice with genetic loss of Postn and/or Tgfbi to examine the roles of these genes during the fibrotic response. Additionally, cardiac-specific TGFBI transgenic mice were generated and analyzed. We observed that deletion of Tgfbi did not alter cardiac disease after myocardial infarction in contrast to greater ventricular wall rupture in Postn gene-deleted mice. Moreover, Tgfbi and Postn double gene-deleted mice showed a similar post-myocardial infarction disease phenotype as Postn-deleted mice. Over-expression of TGFBI in the hearts of mice had a similar effect as previously shown in mice with periostin over-expression. Thus, TGFBI and periostin act similarly in the heart in affecting fibrosis and disease responsiveness, although TGFBI is not seemingly necessary in the heart after myocardial infarction injury and is fully compensated by the more prominently expressed effector periostin.

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The V-ATPase accessory protein Atp6ap1b mediates dorsal forerunner cell proliferation and left–right asymmetry in zebrafish

Gokey

Dasgupta

Amack

2015

Developmental Biology

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Asymmetric fluid flows generated by motile cilia in a transient ‘organ of asymmetry’ are involved in establishing the left-right (LR) body axis during embryonic development. The vacuolar-type H+-ATPase (V-ATPase) proton pump has been identified as an early factor in the LR pathway that functions prior to cilia, but the role(s) for V-ATPase activity are not fully understood. In the zebrafish embryo, the V-ATPase accessory protein Atp6ap1b is maternally supplied and expressed in dorsal forerunner cells (DFCs) that give rise to the ciliated organ of asymmetry called Kupffer’s vesicle (KV). V-ATPase accessory proteins modulate V-ATPase activity, but little is known about their functions in development. We investigated Atp6ap1b and V-ATPase in KV development using morpholinos, mutants and pharmacological inhibitors. Depletion of both maternal and zygotic atp6ap1b expression reduced KV organ size, altered cilia length and disrupted LR patterning of the embryo. Defects in other ciliated structures—neuromasts and olfactory placodes—suggested a broad role for Atp6ap1b during development of ciliated organs. V-ATPase inhibitor treatments reduced KV size and identified a window of development in which V-ATPase activity is required for proper LR asymmetry. Interfering with Atp6ap1b or V-ATPase function reduced the rate of DFC proliferation, which resulted in fewer ciliated cells incorporating into the KV organ. Analyses of pH and subcellular V-ATPase localizations suggested Atp6ap1b functions to localize the V-ATPase to the plasma membrane where it regulates proton flux and cytoplasmic pH. These results uncover a new role for the V-ATPase accessory protein Atp6ap1b in early development to maintain the proliferation rate of precursor cells needed to construct a ciliated KV organ capable of generating LR asymmetry.

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Jason J. Gokey

Single-cell RNA sequencing identifies diverse roles of epithelial cells in idiopathic pulmonary fibrosis

Single cell RNA analysis identifies cellular heterogeneity and adaptive responses of the lung at birth

Active epithelial Hippo signaling in idiopathic pulmonary fibrosis

Kupffer's vesicle size threshold for robust left–right patterning of the zebrafish embryo

The Incidence and Consequences of Barotrauma in Fish in the St. Lawrence River

The elephant in the lung: Integrating lineage-tracing, molecular markers, and single cell sequencing data to identify distinct fibroblast populations during lung development and regeneration

TGFBI functions similar to periostin but is uniquely dispensable during cardiac injury

The V-ATPase accessory protein Atp6ap1b mediates dorsal forerunner cell proliferation and left–right asymmetry in zebrafish

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