Prof. Avishay Stark

Retired in Biochemistry Molecular Biology
ביוכימיה וביולוגיה מולקולרית בדימוס
Prof. Avishay Stark
Phone: 03-6409441
Fax: 03-6406834
Office: Sherman - Life Sciences, 630

Research Interests

My research focuses on a molecular basis for growth advantage provided to cancer cells by a tumor-specific enzyme: analysis of a very early event in carcinogenesis.  A common feature of all cancer cells is their autonomous, uncontrolled proliferation. This autonomy is achieved by sequential mutations in and activation of several proliferation-promoting genes (oncogenes), and by the inactivation of several genes which inhibit proliferation (tumor-suppressor genes). Thus, the conversion of a normal into a cancerous cell is a multistage process, requiring the occurrence of many genetic (and biochemical) events in the same cell or its descendants. The pre-cancerous cells, the proliferation of which is not yet autonomous, must acquire some growth or selective advantages during the early stages of carcinogenesis in order to bring their population to such levels that will allow one or a few of them to undergo further events, and to proceed to autonomy and malignancy.


In order to elucidate which activity is important for carcinogenesis, we have developed monoclonal antibodies that specifically inactivate either the hydrolytic (MAb 2A10) or the transpeptidatic (MAb 5F10) activities of GGT (6). We have shown that GSH levels in a GGT-rich, tumorigenic rat liver cell line (line M-22) are 2-3 fold higher than those in its GGT-poor, non tumorigenic parental line (line OC/CDE 22), and that GSH half life periods are 1.5-2 fold longer in the tumorigenic line. Under limiting concentrations of cysteine, resembling the in vivo conditions, the growth rate of GGT-rich cells is much higher than that of GGT-poor counterparts. We have studied the growth properties of these lines at limiting and non limiting cysteine in the presence and absence of MAb 5F10. This antibody inhibited the growth of M22 at limiting, but not at non limiting cysteine concentrations, whereas the growth of OC/CDE22 was only marginally affected. This indicates that transpeptidation is important for growth. We have also shown that mouse skin cell lines expressing moderate levels of GGT are less tumorigenic lines containing high GGT activity. We are currently studying the role of GGT in GSH biosynthesis and utilization in these lines. In addition, we have cloned human GGT cDNA in the sense and the antisense orientations under the control of the metallothionein promoter. GGT transfectants express high GGT activity levels in the presence but not in the absence of zinc. We are currently testing whether increase of GGT expression promotes tumorigenicity, and whether inhibition of GGT antisense expression abolishes or decreases tumorigenicity. 


Recent Publications

Relevant articles

Stark, A.A. (1991) Oxidative metabolism of glutathione by gamma-glutamyl transpeptidase and peroxisome proliferation: the relevance to hepatocarcinogenesis. A hypothesis. Mutagenesis 6: 241-245.


Stark, A.A., Zeiger, E. and Pagano, D.A. (1991) Oxidative mutagenesis by the glutathione-gamma-glutamyl transpeptidase system: mechanism and relevance to hepatocarcinogenesis. In: Nygaard, O.F., Upton, A.C. (eds.) , “Anticarcinogenesis and Radiation Protection”, vol 2, Plenum Publishing Corp., New York, pp. 61-71.


Stark, A.A., Zeiger, E. and Pagano, DA. (1993) Glutathione metabolism by GGT leads to lipid peroxidation: characterization of the system and relevance to hepatocarcinogenesis. Carcinogenesis 14: 183-189.


Stark, A.A., Russell, J.J., Langenbach, R.E, Pagano, D.A., Zeiger, E. and Huberman, E. (1994) Localization of oxidative damage by a glutathione-gamma-glutamyl transpeptidase system in preneoplastic lesions in sections of livers from carcinogen-treated rats. Carcinogenesis 15: 343-348.


Stark, A.A., Pagano, D.A., Glass, G.A., Kamin-Belsky, N. and Zeiger, E. (1994) The effects of antioxidants and enzymes involved in glutathione metabolism on mutagenesis by glutathione and L-cysteine. Mutation Res.308: 215-222.


Glass, G.A., Bluvshtein, E., Gur, Y., Sfez, S., Simovich, V. and Stark, A.A. (1994) Detection of conformational changes in rat kidney gamma-glutamyl transpeptidase by an antibody against a synthetic peptide pertaining to a part of the reactive center of the enzyme. Biochem. Mol. Biol. Internatl.33: 505-513.


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