Human hair follicles contain two forms of ATP-sensitive potassium channels, only one of which is sensitive to minoxidil

Shorter, K., Farjo, N.P., Picksley, Stephen M., Randall, Valerie A.

January 2008

No / Hair disorders cause psychological distress but are generally poorly controlled; more effective treatments are required. Despite the long-standing use of minoxidil for balding, its mechanism is unclear; suggestions include action on vasculature or follicle cells. Similar drugs also stimulate hair, implicating ATP-sensitive potassium (K(ATP)) channels. To investigate whether K(ATP) channels are present in human follicles, we used organ culture, molecular biological, and immunohistological approaches. Minoxidil and tolbutamide, a K(ATP) channel blocker, opposed each other's effects on the growing phase (anagen) of scalp follicles cultured in media with and without insulin. Reverse transcriptase-polymerase chain reaction identified K(ATP) channel component gene expression including regulatory sulfonylurea receptors (SUR) SUR1 and SUR2B but not SUR2A and pore-forming subunits (Kir) Kir6.1 and Kir6.2. When hair bulb tissues were examined separately, epithelial matrix expressed SUR1 and Kir6.2, whereas both dermal papilla and sheath exhibited SUR2B and Kir6.1. Immunohistochemistry demonstrated similar protein distributions. Thus, human follicles respond biologically to K(ATP) channel regulators in culture and express genes and proteins for two K(ATP) channels, Kir6.2/SUR1 and Kir6.1/SUR2B; minoxidil only stimulates SUR2 channels. These findings indicate that human follicular dermal papillae contain K(ATP) channels that can respond to minoxidil and that tolbutamide may suppress hair growth clinically; novel drugs designed specifically for these channels could treat hair disorders.

ATP-binding cassette transporters

Hair follicle

Chemistry

Humans

Immunohistochemistry

KATP channels

Analysis

Drug effects

Genetics

Minoxidil

Pharmacology

Organ culture techniques

Polymerase chain reaction

Potassium channels

Inwardly rectifying

Receptors

Sulfonylurea receptors

Tolbutamide

Vasodilator agents

REF 2014

Über die differentielle Regulation von Ionenkanälen in spezifischen Nanodomänen atrialer und ventrikulärer Kardiomyozyten / Differential Regulation of Ion Channels in Specific Nanodomains of Atrial and Ventricular Cardiomyocytes

Brandenburg, Sören

29 June 2017

No description available.

610

Kardiomyozyte

Atrium

Ventrikel

Axialer Tubulus

T-Tubulus

Transversal-axiales Tubulussystem

TATS

Ryanodinrezeptor

RyR2

Calciumkanal

Cav1.2

Proteinkinase A

PKA

Calcium/Calmodulin-abhängige Kinase II

CaMKII

Calciumfreisetzung

Calcium Sparks

hochphosphoryliert

Super-hub

beta-adrenerge Stimulation

Aortenstenose

TAC

ATP-sensitive Kaliumkanäle

KATP

Coatomer

COPI

14-3-3

Arg-basiertes Retentionssignal

Cardiomyocyte

Atrium

Ventricle

Axial tubule

T-tubule

TATS

Ryanodin receptor

RyR2

Calcium channel

Cav1.2

Protein kinase A

PKA

Calcium/calmodulin-dependent kinase II

Calcium release

Calcium sparks

highly-phosphorylated

Super-hub

Beta-adrenergic stimulation

Transverse-axial tubule system

Aortic stenosis

TAC

ATP-sensitive potassium channels

KATP

Coatomer

COPI

14-3-3

Arg-based retrieval signal

CaMKII

Medizin (PPN619874732)

Kardiologie (PPN619875755)

Physiologische Chemie

Biochemie

Physiologie

Analysis of mouse models of insulin secretion disorders

Kaizik, Stephan Martin

January 2010

No description available.

616.4