Your search keyword '"Gierszewski, P. J."' showing total 9 results

1. Loss of glutathione homeostasis associated with neuronal senescence facilitates TRPM2 channel activation in cultured hippocampal pyramidal neurons

Author

Belrose Jillian C, Xie Yu-Feng, Gierszewski Lynn J, MacDonald John F, and Jackson Michael F

Subjects

TRPM2, Aging, Glutathione, Oxidative stress, Pyramidal neuron, Primary hippocampal culture, Neurology. Diseases of the nervous system, RC346-429

Abstract

Abstract Background Glutathione (GSH) plays an important role in neuronal oxidant defence. Depletion of cellular GSH is observed in neurodegenerative diseases and thereby contributes to the associated oxidative stress and Ca2+ dysregulation. Whether depletion of cellular GSH, associated with neuronal senescence, directly influences Ca2+ permeation pathways is not known. Transient receptor potential melastatin type 2 (TRPM2) is a Ca2+ permeable non-selective cation channel expressed in several cell types including hippocampal pyramidal neurons. Moreover, activation of TRPM2 during oxidative stress has been linked to cell death. Importantly, GSH has been reported to inhibit TRPM2 channels, suggesting they may directly contribute to Ca2+ dysregulation associated with neuronal senescence. Herein, we explore the relation between cellular GSH and TRPM2 channel activity in long-term cultures of hippocampal neurons. Results In whole-cell voltage-clamp recordings, we observe that TRPM2 current density increases in cultured pyramidal neurons over time in vitro. The observed increase in current density was prevented by treatment with NAC, a precursor to GSH synthesis. Conversely, treatment of cultures maintained for 2 weeks in vitro with L-BSO, which depletes GSH by inhibiting its synthesis, augments TRPM2 currents. Additionally, we demonstrate that GSH inhibits TRPM2 currents through a thiol-independent mechanism, and produces a 3.5-fold shift in the dose-response curve generated by ADPR, the intracellular agonist for TRPM2. Conclusion These results indicate that GSH plays a physiologically relevant role in the regulation of TRPM2 currents in hippocampal pyramidal neurons. This interaction may play an important role in aging and neurological diseases associated with depletion of GSH.

Published

2012

2. ChemInform Abstract: Properties of Lithium Hydroxide and Lithium Nitrate Aqueous Solutions: Additional Results

Author

GIERSZEWSKI, P. J., primary, PRASAD, R. C., additional, and KIRK, D. W., additional

Published

1992

3. ITER fuelling, pumping, wall conditioning systems and fuel dynamics analysis

Author

Nakamura, H., Ladd, P., Federici, G., Janeschitz, G., Schaubel, K. M., Sugihara, M., Busigin, A., Gierszewski, P. J., Hiroki, S., and Hurzhneier, H. S.

Published

1998

4. The Effective Thermal Conductivity of a Bed of 1.2-mm-diam Lithium Zirconate Spheres in Helium

Author

Earnshaw, John W., Londry, Frank A., and Gierszewski, Paul J.

Abstract

AbstractThe effective thermal conductivity of a bed of lithium zirconate spheres in helium has been measured over the ranges 0 < P< 200 kPa and 600 < T< 1500 K. The data are fitted to the equation k= ap+ bpT3. At 100 kPa, the thermal conductivity is given by k(T) = 0.69 + 2.2 × 10-10T3W/m·K-1. A table of values for apand bpis provided for other pressure settings. Values of the near-wall effective thermal conductivity are estimated from the data.

Published

1998

5. Authors

Author

Abdou, M. A., primary, Gierszewski, P. J., additional, Tillack, M. S., additional, Taghavi, K., additional, Kleefeldt, K., additional, Bell, G., additional, Madarame, H., additional, Oyama, Y., additional, Berwald, D. H., additional, Garner, J. K., additional, Whitley, R., additional, Straalsund, J., additional, Burke, R., additional, Grover, J., additional, Opperman, E., additional, Puigh, R., additional, Davis, J. W., additional, Morgan, G. D., additional, Deis, G., additional, Billone, M. C., additional, Thomassen, K. I., additional, Jassby, D. L., additional, Bracci, Luciano, additional, Fiorentini, Giovanni, additional, Maki, Koichi, additional, Meier, Wayne R., additional, Morse, Edward C., additional, Tucker, Dennis S., additional, Fowler, John D., additional, Clinard, Frank W., additional, Heinisch, Howard L., additional, Mann, Frederick M., additional, Doran, Donald G., additional, Kreutz, Ronald, additional, Joneja, Om Prakash, additional, Nargundkar, Vijay R., additional, and Rafelski, Johann, additional

Published

1985

6. A Study of the Issues and Experiments for Fusion Nuclear Technology

Author

Abdou, M. A., primary, Gierszewski, P. J., additional, Tillack, M. S., additional, Taghavi, K., additional, Kleefeldt, K., additional, Bell, G., additional, Madarame, H., additional, Oyama, Y., additional, Berwald, D. H., additional, Garner, J. K., additional, Whitley, R., additional, Straalsund, J., additional, Burke, R., additional, Grover, J., additional, Opperman, E., additional, Puigh, R., additional, Davis, J. W., additional, Morgan, G. D., additional, Deis, G., additional, Billone, M. C., additional, Thomassen, K. I., additional, and Jassby, D. L., additional

Published

1985

7. Summary of the Aqueous Lithium Salt Blanket Workshop, Toronto, Ontario, Canada, February 6–9, 1989

Author

Gierszewski, P. J., primary and Sze, D. K., additional

Published

1989

8. Experimental demonstration of tokamak fuelling by compact toroid injection.

Author

Raman, R., Martin, F., Haddad, E., St-Onge, M., Abel, G., Cote, C., Richard, N., Blanchard, N., Mai, H. H., Quirion, B., LaChambre, J. -L, Gauvreau, J. -L, Pacher, G. W., DeCoste, R., Gierszewski, P. J., Hwang, D. Q., Hirose, A., Savoie, S., LeBlanc, B. -J, and McLean, H.

Published

1997

9. Technical issues and requirements of experiments and facilities for fusion nuclear technology.

Author

Abdou, M. A., Gierszewski, P. J., Tillack, M. S., Nakagawa, M., Reimann, J., Sze, D. K., Bartlit, J., Grover, J., Puigh, R., and McGrath, R. T.

Published

1987