CELL VOLUME CONFERENCES

This mini-review describes the history of cell volume conferences with the emphasis on the research of cell volume sensitive peptide exocytosis initiated by Prof. Monte A. Greer as well as the recent achievements on the study of the mechanisms of cell volume adjustment and their implications in the regulation of metabolism, gene expression, cell proliferation and death.

history of cell volume conferences

1. Greer M.A., Greer S.E., Opsahl Z., McCafferty L., Maruta S. Hyposmolar stimulation of in vitro pituitary secretion of luteinizing hormone: a potential clue to the secretory process. Endocrinology, 1983, 113, pp. 1531–1533.

2. Greer M.A., Greer S.E., Opsahl Z., Maruta S. Comparison of hyposmolar and hyperosmolar effects on in vitro luteinizing hormone secretion by anterior pituitary cells. Proc. Soc. Exp. Biol. Med., 1985, 178, pp. 24–28.

3. Blackard W.G., Kikuchi M., Rabinovitch A., Renold A.E. An effect of hyposmolarity on insulin release in vitro. Am. J. Physiol., 1975, 228, pp. 706–713.

4. Chamberlin M.E., Strange K. Anisosmotic cell volume regulation: a comparative view. Am. J. Physiol., 1989, 257, C159–173.

5. Lang F., Busch G.L., Ritter M., Völkl H., Waldegger S., Gulbins E., Häussinger D. Functional significance of cell volume regulatory mechanisms. Physiol Rev., 1998, 78 (1), pp. 247–306.

6. Okada Y., Hazama A., Yuan W.L. Stretch-induced activation of Ca2+-permeable ion channels is involved in the volume regulation of hypotonically swollen epithelial cells. Neurosci. Res. Suppl., 1990, 12, S5–13.

7. Wehner F., Olsen H., Tinel H., Kinne-Saffran E., Kinne R.K.H. Cell volume regulation: osmolytes, osmolyte transport, and signal transduction. Rev. Physiol. Biochem. Pharmacol., 2003, 148, pp. 1–80.

8. Hoffmann E.K., Lambert I.H., Pedersen S.F. Physiology of Cell Volume Regulation in Vertebrates. Physiol. Rev., 2009, 89, pp. 193–277.

9. Häussinger D., Hallbrucker C., vom Dahl S., Decker S., Schweizer U., Lang F., Gerok W. Cell volume is a major determinant of proteolysis control in liver. FEBS Lett., 1991, 20, 283 (1), pp. 70–2.

10. Stoll B., Gerok W., Lang F., Häussinger D. Liver cell volume and protein synthesis. Biochem. J., 1992, 287 (Pt. 1), pp. 217–22.

11. Häussinger D., Lang F. Cell volume and hormone action. Trends Pharmacol Sci., 1992, 13 (10), 371–373. Review.

12. Waldegger S., Lang F. Cell volume and gene expression. J. Membr. Biol., 1998, 162 (2), 95–100. Review.

13. Lang F., Uhlemann A.C., Lepple-Wienhues A., Szabo I., Siemen D., Nilius B., Gulbins E. Cell volume regulatory mechanisms in apoptotic cell death. Herz., 1999, 24 (3), 232–5. Review.

14. Lang F., Ritter M., Gamper N., Huber S., Fillon S., Tanneur V., Lepple-Wienhues A., Szabo I., Gulbins E. Cell volume in the regulation of cell proliferation and apoptotic cell death. Cell Physiol Biochem., 2000, 10 (5–6), 417–28. Review.

15. Okada Y., Maeno E. Apoptosis, cell volume regulation and volume-regulatory chloride channel. Comp. Biochem. Physiol. A Mol. Integr. Physiol., 2001, 130 (3), 377–83. Review.

16. Jakab M., Ritter M. Cell volume regulatory ion transport in the regulation of cell migration. Contrib. Nephrol., 2006, 152, pp. 161–180.

17. Fels J., Orlov S.N., Grygorczyk R. The hydrogel nature of mammalian cytoplasm contributes to osmosensing and extracellular pH sensing. Biophys. J., 2009, 96 (10), pp. 4276–4285.

18. Strbak V., Greer M.A. Regulation of hormone secretion by acute cell volume changes: Ca2+-independent hormone secretion. Review. Cell. Physiol. Biochem., 2000, 10, pp. 393–402.

19. Strbak V. Cell swelling-induced peptide hormone secretion. Cell Physiol. Biochem., 2011, 28, pp. 1155–1168.

20. Najvirtova M., Greer S.E., Greer M.A., Baqi L., Benicky J., Strbak V. Cell Volume Induced Hormone Secretion: Studies on Signal Transduction and Specificity. Cell Physiol. Biochem., 2003, 13, pp. 113–122.

21. Bacová Z., Benický J., Lukyanetz E.E., Lukyanets I.A., Štrbák V. Different signaling pathways involved in gl ucose and cell swelling-induced insulin secretion by rat pancreatic islets in vitro. Cell Physiol. Biochem., 2005, 16, pp. 9–68.

22. Bacová Z., Hafko R., Orečná M., Kohút P., Hapala I., and Strbák V. Effect of Cellular Cholesterol Changes on Insulin Secretion by Tumor Cell Lines. Medicinal Chemistry, 2012, 8, pp. 65–71.

23. Strbak V. Cell volume and Peptide Hormone secretion. Contrib. Nephrol., 2006, 152, pp. 210–220.

24. Bacová Z., Kiss A., Jamal B., Payer J Jr., Štrbák V. The effect of swelling on TRH and oxytocin secretion from hypothalamic structures. Cell Mol. Neurobiol., 2006, 26, pp. 1047–1055.

25. Štrbák V. Neurons and cell swelling-induced peptide hormone secretion. In: Kamkin A. and Kiseleva I. (eds): Mechanosensitivity of the nervous system, Springer Science + Bussiness Media B.V. 2009, pp. 69–85.

26. Groulx N., Boudreault F., Orlov S.N., Grygorczyk R. Membrane reserves and hypotonic cell swelling. J. Membr. Biol., 2006, 214 (1), pp. 43–56.

27. Mariman E.C.M. An adipobiological model for weight regain after weight loss. Review. Adipobiology., 2011, 3, pp. 9–16,

28. Štrbák V. Both acute and chronic cell volume changes are engaged in regulation of adipocyte functions. Commentary. 2011, 3, pp. 17–18.