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001-es BibID:BIBFORM006036
Első szerző:Gáspár Rezső (biofizikus)
Cím:Effects of bretylium tosylate on voltage-gated potassium channels in human T lymphocytes / Gaspar, R., Panyi, G., Ypey, D. L., Krasznai, Z., Vereb, G., Pieri, C., Damjanovich, S.
Dátum:1994
Megjegyzések:Using the patch-clamp technique, we determined that bretylium tosylate, a quaternary ammonium compound possessing immunomodulating activity, decreased the whole-cell K+ current in human T lymphocytes, in a dose-dependent manner, in the 0.05-5 mM extracellular concentration range. Bretylium tosylate prolonged the recovery from inactivation and accelerated the inactivation and deactivation of the K+ current but did not influence the kinetics of activation or the voltage dependence of activation and steady state inactivation of the K+ conductance. The percentage of drug-induced block was independent of membrane potential. K+ channel block by bretylium tosylate was partially and slowly removable by washing with drug-free extracellular solution. Bovine serum albumin (10 mg/ml) in the bath lifted the drug-induced block almost instantaneously, although not completely. In control experiments bovine serum albumin increased the inactivation time constant of the K+ channels but left the peak K+ current amplitude unaffected. On the basis of the experimental evidence, a gating-dependent allosteric interaction is suggested for the mechanism of drug action. The effective dose range, time of exposure, and reversibility of bretylium tosylate-induced K+ channel block correlated well with the same parameters of the drug-induced inhibition of T lymphocyte activation. The reported effects of bretylium tosylate on T cell mitogenesis can be regarded partly as a consequence of its blocking effects on voltage-gated K+ channels.
Tárgyszavak:Orvostudományok Elméleti orvostudományok idegen nyelvű folyóiratközlemény külföldi lapban
Bretylium Tosylate
Cell Membrane
drug effects
Electrophysiology
Human
Hungary
In Vitro
Ion Channel Gating
Kinetics
Lymphocytes
pharmacology
physiology
Potassium
Potassium Channels
Support,Non-U.S.Gov't
T-Lymphocytes
Megjelenés:Molecular pharmacology. - 46 : 4 (1994), p. 762-766. -
További szerzők:Panyi György (1966-) (biofizikus) Ypey, Dirk L. Krasznai Zoltán (1950-) (biofizikus) Vereb György (1965-) (biofizikus, orvos) Pieri, Carlo Damjanovich Sándor (1936-2017) (biofizikus)
Internet cím:elektronikus változat
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2.

001-es BibID:BIBFORM033278
035-os BibID:PMID:8588941 WOS:A1995TF18900001
Első szerző:Vereb György (biofizikus, orvos)
Cím:Plasma-membrane-bound macromolecules are dynamically aggregated to form non-random codistribution patterns of selected functional elements. Do pattern recognition processes govern antigen presentation and intercellular interactions? / György Vereb, László Matyus, László Bene, György Panyi, Zsolt Bacsó, Margit Balázs, János Matkó, János Szöllősi, Rezső Gáspár, Sándor Damjanovich, Robert E. Dale, Carlo Pieri, Marcel Ameloot
Dátum:1995
Megjegyzések:Molecular recognition processes between cell surface elements are discussed with special reference to cell surface pattern formation of membrane-bound integral proteins. The existence, as detected by flow cytometric resonance energy transfer (Appendix), and significance of cell surface patterns involving the interleukin-2 receptor, the T-cell receptor-CD3 system, the intercellular adhesion molecule ICAM-1, and the major histocompatibility complex class I and class II molecules in the plasma membrane of lymphocytes are described. The modulation of antigen presentation by transmembrane potential changes is discussed, and a general role of transmembrane potential changes, and therefore of ion channel activities, adduced as one of the major regulatory mechanisms of cell-cell communication. A general role in the mediation and regulation of intercellular interactions is suggested for cell-surface macromolecular patterns. The dynamic pattern of protein and lipid molecules in the plasma membrane is generated by the genetic code, but has a remarkable flexibility and may be one of the major instruments of accommodation and recognition processes at the cellular level.
Tárgyszavak:Orvostudományok Egészségtudományok idegen nyelvű folyóiratközlemény külföldi lapban
cell surface
molecular pattern
energy transfer
fluorescence
flow cytometry
transmembrane potential
MHC
antigen presentation
intercellular communication
egyetemen (Magyarországon) készült közlemény
Megjelenés:Journal of Molecular Recognition. - 8 : 4 (1995), p. 237-246. -
További szerzők:Mátyus László (1956-) (biofizikus) Bene László (1963-) (biofizikus) Panyi György (1966-) (biofizikus) Bacsó Zsolt (1963-) (biofizikus) Balázs Margit (1952-) (sejtbiológus, molekuláris genetikus) Matkó János (1952-) (biológus) Szöllősi János (1953-) (biofizikus) Gáspár Rezső (1944-) (biofizikus) Damjanovich Sándor (1936-2017) (biofizikus) Dale, Robert E. Pieri, Carlo Ameloot, Marcel
Internet cím:DOI
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