Functional Swapping between Transmembrane Proteins TMEM16A and TMEM16F / 膜蛋白質TMEM16AとTMEM16Fにおける機能的ドメイン交換

Suzuki, Takayuki

24 March 2014

京都大学 / 0048 / 新制・課程博士 / 博士(医学) / 甲第18181号 / 医博第3901号 / 新制||医||1004(附属図書館) / 31039 / 京都大学大学院医学研究科医学専攻 / (主査)教授 岩田 想, 教授 松田 道行, 教授 楠見 明弘 / 学位規則第4条第1項該当 / Doctor of Medical Science / Kyoto University / DFAM

phospholipid scramblase

Cl- channel

deletion mutation

swapping

chemical inhibitors

490

Inward-rectifier chloride currents in Reissner’s membrane epithelial cells

Kim, Kyunghee

January 1900

Master of Science / Department of Anatomy and Physiology / Daniel C. Marcus / Sensory transduction in the cochlea depends on regulated ion secretion and absorption. Results of whole-organ experiments suggested that Reissner’s membrane may play a role in the control of luminal Cl-. We tested for the presence of Cl- transport pathways in isolated mouse Reissner’s membrane using whole-cell patch clamp recordings and gene transcript analyses using RT-PCR. The current-voltage (I-V) relationship in the presence of symmetrical NMDG-Cl was strongly inward-rectifying at negative voltages, with a small outward current at positive voltages. The inward-rectifying component of the I-V curve had several properties similar to those of the ClC-2 Cl- channel. It was stimulated by extracellular acidity and inhibited by extracellular Cd2+, Zn2+, and intracellular ClC-2 antibody. Channel transcripts expressed in Reissner’s membrane include ClC-2, Slc26a7 and ClC-Ka, but not Cftr, ClC-1, ClCa1, ClCa2, ClCa3, ClCa4, Slc26a9, ClC-Kb, Best1, Best2, Best3 or the beta-subunit of ClC-K, barttin. ClC-2 is the only molecularly-identified channel present that is a strong inward rectifier. This thesis incorporates the publication by K.X. Kim and D.C. Marcus, Inward-rectifier chloride currents in Reissner’s membrane epithelial cells. Biochem. Biophys. Res. Commun. 394 (2010) 434-438, with permission of the publisher Elsevier, and is the first report of conductive Cl- transport in epithelial cells of Reissner’s membrane and is consistent with an important role in endolymph anion homeostasis.

Cl- channel

Epithelial transport

Cochlea

ClC-2 channel

Biology, Veterinary Science (0778)

Estudio funcional y molecular del canal Maxi-Cl activado por antiestrógenos

Bahamonde Santos, María Isabel

27 February 2004

Las membranas celulares contienen un canal de Cl- (Maxi-Cl-) que es modulado por estrógenos y antiestrógenos. El trabajo experimental de mi tesis doctoral ha consistido en el estudio de la modulación de este canal y su identidad molecular. El resultado de mi trabajo ha demostrado que la base molecular del canal Maxi-Cl- es una isoforma de la proteína mitocondrial VDAC y que la activación del canal por los antiestrógenos y su inhibición por los estrógenos implica procesos de defosforilación y fosforilación, respectivamente. / Cellular membranes contain a Maxi-Cl- channel that is modulated by oestrogen and antioestrogens. The experimental work of my PhD Thesis has focussed in the study of the molecular identity of the Maxi-Cl- channel and its regulation. My results demonstrated that an isoform of the mitochondrial protein VDAC is the molecular correlate of the Maxi-Cl- channel and that the activation of the channel by antioestrogens and its inhibition by oestrogen requires a dephosphorylation and phosphorylation process, respectively.

neuroblastos

fibroblastos

toremifeno

mitocondria

lipid raft

caveolin

Maxi-Cl- channel

fibroblast

mitochondria

caveolae

antioestrogen

neuroblastoma

toremifen

antiestrógeno

caveola

caveolina

lipid raft

VDAC

canal Maxi-Cl-

573