Control of Cell-death (apoptosis) By Diethylstilbestrol in An Estrogen-dependent Kidney Tumor

The role of cell death as a determinant for tumor growth and regression was studied using an estrogen-dependent, transplantable kidney tumor designated H301. H301 cells were injected s.c. into diethylstilbestrol(DES)-treated male Syrian hamsters and developed solid tumors of 1-2 g within 2-3 weeks. Upon withdrawal of estrogen the tumors regressed by 80-90% within 4 days. Mitoses, necrotic areas and single-cell death indicated by small, condensed cell residues, were counted in hematoxylin and eosin stained histological sections of the tumors. Coincident with tumor regression after DES withdrawal, mitotic activity decreased by approximately 90%; the rate of single-cell death increased (by approximately 2-fold at its maximum). The incidence of necrotic areas was not affected by DES withdrawal. DES re-treatment resulted in reduction of single-cell death by 80% within 8 h. Mitotic activity increased within 24 h to the level observed before DES withdrawal. Again, the incidence of necrotic areas did not change. As a result, tumors re-grew to their previous size within 2 days after resumption of DES treatment. These results led to the following conclusions: (i) DES treatment inhibits and DES withdrawal enhances single-cell death of H301 tumor cells. (ii) Both this functional property and its morphology characterize single-cell death in the tumors as apoptosis. (iii) Estrogen-dependent cell death determines, in addition to mitosis and necrosis, the growth rate of H301 tumors. (iv) This experimental model may provide a useful tool to study the interaction of potential anti-tumor drugs with apoptosis in neoplasia

Characterization of a novel N-acetylneuraminic acid lyase favoring industrial N-acetylneuraminic acid synthesis process

N-Acetylneuraminic acid lyase (NAL, E.C. number 4.1.3.3) is a Class I aldolase that catalyzes the reversible aldol cleavage of N-acetylneuraminic acid (Neu5Ac) from pyruvate and N-acetyl-D-mannosamine (ManNAc). Due to the equilibrium favoring Neu5Ac cleavage, the enzyme catalyzes the rate-limiting step of two biocatalytic reactions producing Neu5Ac in industry. We report the biochemical characterization of a novel NAL from a “GRAS” (General recognized as safe) strain C. glutamicum ATCC 13032 (CgNal). Compared to all previously reported NALs, CgNal exhibited the lowest kcat/Km value for Neu5Ac and highest kcat/Km values for ManNAc and pyruvate, which makes CgNal favor Neu5Ac synthesis the most. The recombinant CgNal reached the highest expression level (480 mg/L culture), and the highest reported yield of Neu5Ac was achieved (194 g/L, 0.63 M). All these unique properties make CgNal a promising biocatalyst for industrial Neu5Ac biosynthesis. Additionally, although showing the best Neu5Ac synthesis activity among the NAL family, CgNal is more related to dihydrodipicolinate synthase (DHDPS) by phylogenetic analysis. The activities of CgNal towards both NAL's and DHDPS' substrates are fairly high, which indicates CgNal a bi-functional enzyme. The sequence analysis suggests that CgNal might have adopted a unique set of residues for substrates recognition