SynopsisThe age, growth, and sexual maturation of the leopard shark, Triakis semifasciata, from central California were studied. Growth band counts in vertebral centra of 162 leopard sharks produced von Bertalanffy growth curves with L,, K. and t, parameters of 1536mm. 0.082, and -2.31, respectively, for both sexes combined. The L, value for females (1602mm TL) was slightly but insignificantly higher than for males (1499 mm TL), but the K and t, values were almost identical. Seasonal changes in size modes of young-of-theyear leopard sharks, centrum edge characteristics, and growth and tetracycline mark-recapture from the field were used to validate annual deposition of vertebral centrum band pairs. Sexual maturity was evaluated by the gonads and presence of sperm and eggs; males mature at 7 yr and at about 63% of asymptotic length, and females mature at 10 yr, and at about 72% of asymptotic length. This slow growth, late maturity, and relatively low fecundity may increase their susceptibility to over-exploitation.
A 14,700-kDa protein (14.7K) encoded by the E3 region of adenovirus has been shown to protect adenovirus-infected mouse C3HA cells from lysis by tumor necrosis factor (TNF) (L.
The adenovirus E1A and E1B proteins are required for transformation of primary rodent cells. When expressed in the absence of the 19,000-dalton (19K) E1B protein, however, the E1A proteins are acutely cytotoxic and induce host cell chromosomal DNA fragmentation and cytolysis, analogous to cells undergoing programmed cell death (apoptosis). E1A alone can efficiently initiate the formation of foci which subsequently undergo abortive transformation whereby stimulation of cell growth is counteracted by continual cell death. Cell lines with an immortalized growth potential eventually arise with low frequency. Coexpression of the E1B 19K protein with E1A is sufficient to overcome abortive transformation to produce high-frequency transformation. Like E1A, the tumoricidal cytokine tumor necrosis factor alpha (TNF-alpha) evokes a programmed cell death response in many tumor cell lines by inducing DNA fragmentation and cytolysis. Expression of the E1B 19K protein by viral infection, by transient expression, or in transformed cells completely and specifically blocks this TNF-alpha-induced DNA fragmentation and cell death. Cosegregation of 19K protein transforming activity with protection from TNF-alpha-mediated cytolysis demonstrates that both activities are likely the consequence of the same function of the protein. Therefore, we propose that by suppressing an intrinsic cell death mechanism activated by TNF-alpha or E1A, the E1B 19K protein enhances the transforming activity of E1A and enables adenovirus to evade TNF-alpha-dependent immune surveillance.
A minority of transformed cell lines are directly susceptible to lysis by TNF, whereas many cells can be made sensitive to TNF by treatment with inhibitors of protein synthesis. Other groups have shown that exposure to TNF induces in many cells a transcription/translation dependent response that protects the cell from TNF lysis. Heat shock proteins are involved in protecting cells from the lethal affects of heat and other metabolic poisons. In this report, we test the possibility that heat shock proteins are also involved in protecting cells from lysis by TNF. We find that after induction of the cellular heat shock response by either heat or arsenite treatment, both spontaneously TNF-sensitive cells and those cells made sensitive by inhibition of protein synthesis are nearly completely protected from TNF cytolysis. The heat-treated cells retained most of their capacity to bind TNF, suggesting that heat shock functions at a postreceptor binding phase of the lytic process. Mouse C3HA fibroblasts are also made sensitive to TNF lysis by treatment with cytochalasin E. We have previously found that elicitation of the cell's TNF-protective response by exposure to TNF suppresses killing of C3HA by subsequent treatment with TNF plus cytochalasin E. In contrast, we report here that induction of the heat shock response did not provide significant protection to C3HA from killing by TNF in the presence of cytochalasin E. Thus, although induction of heat shock proteins does protect cells from TNF, they appear to act by a mechanism distinct from that elicited by TNF itself.
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