Leonid Tyan scite author profile

Ca(2+) signaling includes store-operated Ca(2+) entry (SOCE) following depletion of endoplasmic reticulum (ER) Ca(2+) stores. On store depletion, the ER Ca(2+) sensor STIM1 activates Orai1, the pore-forming unit of Ca(2+)-release-activated Ca(2+) (CRAC) channels. Here, we show that Orai1 is regulated by serum- and glucocorticoid-inducible kinase 1 (SGK1), a growth factor-regulated kinase. Membrane Orai1 protein abundance, I(CRAC), and SOCE in human embryonic kidney (HEK293) cells stably expressing Orai1 and transfected with STIM1 were each significantly enhanced by coexpression of constitutively active (S422D)SGK1 (by+81, +378, and+136%, respectively) but not by inactive (K127N)SGK1. Coexpression of the ubiquitin ligase Nedd4-2, an established negatively regulated SGK1 target, down-regulated SOCE (by -48%) and I(CRAC) (by -60%), an effect reversed by expression of (S422D)SGK1 (by +175 and +173%, respectively). Orai1 protein abundance and SOCE were significantly lower in mast cells from SGK1-knockout (sgk1(-/-)) mice (by -37% and -52%, respectively) than in mast cells from wild-type (sgk1(+/+)) littermates. Activation of SOCE by sarcoplasmic/endoplasmic reticulum Ca(2+)-ATPase-inhibitor thapsigargin (2 μM) stimulated migration, an effect significantly higher (by +306%) in (S422D)SGK1-expressing than in (K127N)SGK1-expressing HEK293 cells, and also significantly higher (by +108%) in sgk1(+/+) than in sgk1(-/-) mast cells. SGK1 is thus a novel key player in the regulation of SOCE.

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Transcription-factor-dependent enhancer transcription defines a gene regulatory network for cardiac rhythm

Yang

Nadadur

Hilvering

et al. 2017

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The noncoding genome is pervasively transcribed. Noncoding RNAs (ncRNAs) generated from enhancers have been proposed as a general facet of enhancer function and some have been shown to be required for enhancer activity. Here we examine the transcription-factor-(TF)-dependence of ncRNA expression to define enhancers and enhancer-associated ncRNAs that are involved in a TF-dependent regulatory network. TBX5, a cardiac TF, regulates a network of cardiac channel genes to maintain cardiac rhythm. We deep sequenced wildtype and Tbx5-mutant mouse atria, identifying ~2600 novel Tbx5-dependent ncRNAs. Tbx5-dependent ncRNAs were enriched for tissue-specific marks of active enhancers genome-wide. Tbx5-dependent ncRNAs emanated from regions that are enriched for TBX5-binding and that demonstrated Tbx5-dependent enhancer activity. Tbx5-dependent ncRNA transcription provided a quantitative metric of Tbx5-dependent enhancer activity, correlating with target gene expression. We identified RACER, a novel Tbx5-dependent long noncoding RNA (lncRNA) required for the expression of the calcium-handling gene Ryr2. We illustrate that TF-dependent enhancer transcription can illuminate components of TF-dependent gene regulatory networks.

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Atrial fibrillation risk loci interact to modulate Ca2+-dependent atrial rhythm homeostasis

Laforest¹,

Dai²,

Tyan³

et al. 2019

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SGK3 Regulates Ca²⁺Entry and Migration of Dendritic Cells

Schmid

Bhandaru

Nurbaeva

et al. 2012

Cell Physiol Biochem

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Background/Aims: Dendritic cells (DCs) are antigen-presenting cells linking innate and adaptive immunity. DC maturation and migration are governed by alterations of cytosolic Ca²⁺ concentrations ([Ca²⁺]_i). Ca²⁺ entry is in part accomplished by store-operated Ca²⁺ (SOC) channels consisting of the membrane pore-forming subunit Orai and the ER Ca²⁺ sensing subunit STIM. Moreover, DC functions are under powerful regulation of the phosphatidylinositol-3-kinase (PI3K) pathway, which suppresses proinflammatory cytokine production but supports DC migration. Downstream targets of PI3K include serum- and glucocorticoid-inducible kinase isoform SGK3. The present study explored, whether SGK3 participates in the regulation of [Ca²⁺]_i and Ca²⁺-dependent functions of DCs, such as maturation and migration. Methods/ Results: Experiments were performed with bone marrow derived DCs from gene targeted mice lacking SGK3 (sgk3^-/-) and DCs from their wild type littermates (sgk3^+/+). Maturation, phagocytosis and cytokine production were similar in sgk3^-/- and sgk3^+/+ DCs. However, SOC entry triggered by intracellular Ca²⁺ store depletion with the endosomal Ca²⁺ ATPase inhibitor thapsigargin (1 µM) was significantly reduced in sgk3^-/- compared to sgk3^+/+ DCs. Similarly, bacterial lipopolysaccharide (LPS, 1 µg/ml)- and chemokine CXCL12 (300 ng/ml)- induced increase in [Ca²⁺]_i was impaired in sgk3^-/- DCs. Moreover, currents through SOC channels were reduced in sgk3^-/- DCs. STIM2 transcript levels and protein abundance were significantly lower in sgk3^-/- DCs than in sgk3^+/+ DCs, whereas Orai1, Orai2, STIM1 and TRPC1 transcript levels and/or protein abundance were similar in sgk3-/- and sgk3^+/+ DCs. Migration of both, immature DCs towards CXCL12 and LPS-matured DCs towards CCL21 was reduced in sgk3^-/- as compared to sgk3^+/+ DCs. Migration of sgk3^+/+ DCs was further sensitive to SOC channel inhibitor 2-APB (50 µM) and to STIM1/STIM2 knock-down. Conclusion: SGK3 contributes to the regulation of store-operated Ca²⁺ entry into and migration of dendritic cells, effects at least partially mediated through SGK3-dependent upregulation of STIM2 expression.

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A calcium transport mechanism for atrial fibrillation in Tbx5-mutant mice

Dai

Laforest

Tyan

et al. 2019

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Risk for Atrial Fibrillation (AF), the most common human arrhythmia, has a major genetic component. The T-box transcription factor TBX5 influences human AF risk, and adult-specific Tbx5-mutant mice demonstrate spontaneous AF. We report that TBX5 is critical for cellular Ca2+ homeostasis, providing a molecular mechanism underlying the genetic implication of TBX5 in AF. We show that cardiomyocyte action potential (AP) abnormalities in Tbx5-deficient atrial cardiomyocytes are caused by a decreased sarcoplasmic reticulum (SR) Ca2+ ATPase (SERCA2)-mediated SR calcium uptake which was balanced by enhanced trans-sarcolemmal calcium fluxes (calcium current and sodium/calcium exchanger), providing mechanisms for triggered activity. The AP defects, cardiomyocyte ectopy, and AF caused by TBX5 deficiency were rescued by phospholamban removal, which normalized SERCA function. These results directly link transcriptional control of SERCA2 activity, depressed SR Ca2+ sequestration, enhanced trans-sarcolemmal calcium fluxes, and AF, establishing a mechanism underlying the genetic basis for a Ca2+-dependent pathway for AF risk.

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Leonid Tyan

Stimulation of Ca ²⁺ ‐channel Orai1/STIM1 by serum‐and glucocorticoid‐inducible kinase 1 (SGK1)

Transcription-factor-dependent enhancer transcription defines a gene regulatory network for cardiac rhythm

Atrial fibrillation risk loci interact to modulate Ca2+-dependent atrial rhythm homeostasis

SGK3 Regulates Ca²⁺Entry and Migration of Dendritic Cells

A calcium transport mechanism for atrial fibrillation in Tbx5-mutant mice

Contact Info

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Leonid Tyan

Stimulation of Ca 2+ ‐channel Orai1/STIM1 by serum‐and glucocorticoid‐inducible kinase 1 (SGK1)

Transcription-factor-dependent enhancer transcription defines a gene regulatory network for cardiac rhythm

Atrial fibrillation risk loci interact to modulate Ca2+-dependent atrial rhythm homeostasis

SGK3 Regulates Ca2+Entry and Migration of Dendritic Cells

A calcium transport mechanism for atrial fibrillation in Tbx5-mutant mice

Contact Info

Product

Resources

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Stimulation of Ca ²⁺ ‐channel Orai1/STIM1 by serum‐and glucocorticoid‐inducible kinase 1 (SGK1)

SGK3 Regulates Ca²⁺Entry and Migration of Dendritic Cells