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001-es BibID:BIBFORM028213
Első szerző:Varga Zoltán (biofizikus, szakfordító)
Cím:Switch of voltage-gated k channel expression in the plasma membrane of chondrogenic cells affects cytosolic ca-oscillations and cartilage formation / Varga Zoltán, Juhász Tamás, Matta Csaba, Fodor János, Katona Eva, Bartok Adam, Oláh Tamás, Sebe Attila, Csernoch László, Panyi György, Zákány Róza
Dátum:2011
Megjegyzések:Understanding the key elements of signaling of chondroprogenitor cells at the earliest steps of differentiation may substantially improve our opportunities for the application of mesenchymal stem cells in cartilage tissue engineering, which is a promising approach of regenerative therapy of joint diseases. Ion channels, membrane potential and Ca(2+)-signaling are important regulators of cell proliferation and differentiation. Our aim was to identify such plasma membrane ion channels involved in signaling during chondrogenesis, which may serve as specific molecular targets for influencing chondrogenic differentiation and ultimately cartilage formation. METHODOLOGY/PRINCIPAL FINDINGS:Using patch-clamp, RT-PCR and Western-blot experiments, we found that chondrogenic cells in primary micromass cell cultures obtained from embryonic chicken limb buds expressed voltage-gated Na(V)1.4, K(V)1.1, K(V)1.3 and K(V)4.1 channels, although K(V)1.3 was not detectable in the plasma membrane. Tetrodotoxin (TTX), the inhibitor of Na(V)1.4 channels, had no effect on cartilage formation. In contrast, presence of 20 mM of the K(+) channel blocker tetraethyl-ammonium (TEA) during the time-window of the final commitment of chondrogenic cells reduced K(V) currents (to 27?3% of control), cell proliferation (thymidine incorporation: to 39?4.4% of control), expression of cartilage-specific genes and consequently, cartilage formation (metachromasia: to 18.0?6.4% of control) and also depolarized the membrane potential (by 9.3?2.1 mV). High-frequency Ca(2+)-oscillations were also suppressed by 10 mM TEA (confocal microscopy: frequency to 8.5?2.6% of the control). Peak expression of TEA-sensitive K(V)1.1 in the plasma membrane overlapped with this period. Application of TEA to differentiated chondrocytes, mainly expressing the TEA-insensitive K(V)4.1 did not affect cartilage formation.CONCLUSIONS/SIGNIFICANCE:These data demonstrate that the differentiation and proliferation of chondrogenic cells depend on rapid Ca(2+)-oscillations, which are modulated by K(V)-driven membrane potential changes. K(V)1.1 function seems especially critical during the final commitment period. We show the critical role of voltage-gated cation channels in the differentiation of non-excitable cells with potential therapeutic use.
Tárgyszavak:Természettudományok Biológiai tudományok idegen nyelvű folyóiratközlemény külföldi lapban
Megjelenés:PLoS One. - 6 : 11 (2011), p. e27957. -
További szerzők:Juhász Tamás (1976-) (biológus, orvosbiológus) Matta Csaba (1980-) (molekuláris biológus, genetikus, angol szakfordító) Fodor János (1973-) (élettanász, biotechnológus) Katona Éva (1986-) (molekuláris biológus) Bartók Ádám (1984-) (biotechnológus) Oláh Tamás (1983-) (élettanász) Sebe Attila Csernoch László (1961-) (élettanász) Panyi György (1966-) (biofizikus) Zákány Róza (1963-) (anatómus-, kötőszövetbiológus)
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