Banu Altindag scite author profile

The signals regulating stem cell activation during tissue regeneration remain poorly understood. We investigated the baldness associated with mutations in the voltagegated calcium channel (VGCC) Ca v 1.2 underlying Timothy syndrome (TS). While hair follicle stem cells express Ca v 1.2, they lack detectable voltage-dependent calcium currents. Ca v 1.2 TS acts in a dominant-negative manner to markedly delay anagen, while L-type channel blockers act through Ca v 1.2 to induce anagen and overcome the TS phenotype. Ca v 1.2 regulates production of the bulgederived BMP inhibitor follistatin-like1 (Fstl1), derepressing stem cell quiescence. Our findings show how channels act in nonexcitable tissues to regulate stem cells and may lead to novel therapeutics for tissue regeneration.

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MTSS1/Src family kinase dysregulation underlies multiple inherited ataxias

Brown

Meera

Altindag

et al. 2018

Proc. Natl. Acad. Sci. U.S.A.

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The genetically heterogeneous spinocerebellar ataxias (SCAs) are caused by Purkinje neuron dysfunction and degeneration, but their underlying pathological mechanisms remain elusive. The Src family of nonreceptor tyrosine kinases (SFK) are essential for nervous system homeostasis and are increasingly implicated in degenerative disease. Here we reveal that the SFK suppressor Missing-in-metastasis (MTSS1) is an ataxia locus that links multiple SCAs. MTSS1 loss results in increased SFK activity, reduced Purkinje neuron arborization, and low basal firing rates, followed by cell death. Surprisingly, mouse models for SCA1, SCA2, and SCA5 show elevated SFK activity, with SCA1 and SCA2 displaying dramatically reduced MTSS1 protein levels through reduced gene expression and protein translation, respectively. Treatment of each SCA model with a clinically approved Src inhibitor corrects Purkinje neuron basal firing and delays ataxia progression in MTSS1 mutants. Our results identify a common SCA therapeutic target and demonstrate a key role for MTSS1/SFK in Purkinje neuron survival and ataxia progression.

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Intestinal involvement during 3,5-diethoxycarbonyl-1,4-dihydrocollidine-induced chronic liver injury in a mouse model

Sukhotnik

Kuscuoglu

Altindag

et al. 2011

Journal of Pediatric Surgery

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Partial Proteasome Inhibitors Induce Hair Follicle Growth by Stabilizing β-Catenin

Yücel

Arnam

Means

et al. 2014

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The activation of tissue stem cells from their quiescent state represents the initial step in the complex process of organ regeneration and tissue repair. While the identity and location of tissue stem cells are becoming known, how key regulators control the balance of activation and quiescence remains mysterious. The vertebrate hair is an ideal model system where hair cycling between growth and resting phases is precisely regulated by morphogen signaling pathways, but how these events are coordinated to promote orderly signaling in a spatial and temporal manner remains unclear. Here, we show that hair cycle timing depends on regulated stability of signaling substrates by the ubiquitin-proteasome system. Topical application of partial proteasomal inhibitors (PaPIs) inhibits epidermal and dermal proteasome activity throughout the hair cycle. PaPIs prevent the destruction of the key anagen signal β-catenin, resulting in more rapid hair growth and dramati cally shortened telogen. We show that PaPIs induce excess β-catenin, act similarly to the GSK3β antagonist LiCl, and antagonize Dickopf-related protein-mediated inhibition of anagen. PaPIs thus represent a novel class of hair growth agents that act through transiently modifying the balance of stem cell activation and quiescence pathways.

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Banu Altindag

State-dependent signaling by Ca_v1.2 regulates hair follicle stem cell function

MTSS1/Src family kinase dysregulation underlies multiple inherited ataxias

Intestinal involvement during 3,5-diethoxycarbonyl-1,4-dihydrocollidine-induced chronic liver injury in a mouse model

Partial Proteasome Inhibitors Induce Hair Follicle Growth by Stabilizing β-Catenin

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About

Banu Altindag

State-dependent signaling by Cav1.2 regulates hair follicle stem cell function

MTSS1/Src family kinase dysregulation underlies multiple inherited ataxias

Intestinal involvement during 3,5-diethoxycarbonyl-1,4-dihydrocollidine-induced chronic liver injury in a mouse model

Partial Proteasome Inhibitors Induce Hair Follicle Growth by Stabilizing β-Catenin

Contact Info

Product

Resources

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State-dependent signaling by Ca_v1.2 regulates hair follicle stem cell function