Optimization of a bacterial consortium for nitrobenzene degradation.

Three bacterial strains, Arthrobacter sp. NB1, Serratia sp. NB2 and Stenotrophomonas sp. NB3, were isolated from contaminated sludge by using nitrobenzene as a sole source of carbon and nitrogen. It was observed that all three strains could degrade nitrobenzene at 400 mg/L initial concentration and mixed-cultivation of these strains could enhance the degradation of nitrobenzene compared with mono-cultivation. Mixture design was used for adjusting the proportions of each strain and the optimal ratio of inoculation size was NB1:NB2:NB3 = 4:4:5, where the nitrobenzene degradation percentage was two times higher than for by the single strain. The results of Plackett-Burman design indicated that Mg(2+), Ca(2+), Fe(2+), Zn(2+) and Mn(2+) had a positive effect on the degradation of nitrobenzene, while Cu(2+) and Co(2+) had a negative effect on it.

Estrogen opposes the apoptotic effects of bone morphogenetic protein 7 on tissue remodeling.

Interactions between estrogen and growth factor signaling pathways at the level of gene expression play important roles in the function of reproductive tissues. For example, estrogen regulates transforming growth factor beta (TGFbeta) in the uterus during the proliferative phase of the mammalian reproductive cycle. Bone morphogenetic protein 7 (BMP-7), a member of the TGFbeta superfamily, is also involved in the development and function of reproductive tissues. However, relatively few studies have addressed the expression of BMP-7 in reproductive tissues, and the role of BMP-7 remains unclear. As part of an ongoing effort to understand how estrogen represses gene expression and to study its interactions with other signaling pathways, chick BMP-7 (cBMP-7) was cloned. cBMP-7 mRNA levels are repressed threefold within 8 h following estrogen treatment in the chick oviduct, an extremely estrogen-responsive reproductive tissue. This regulation occurs at the transcriptional level. Estrogen has a protective role in many tissues, and withdrawal from estrogen often leads to tissue regression; however, the mechanisms mediating regression of the oviduct remain unknown. Terminal transferase-mediated end-labeling and DNA laddering assays demonstrated that regression of the oviduct during estrogen withdrawal involves apoptosis, which is a novel observation. cBMP-7 mRNA levels during estrogen withdrawal increase concurrently with the apoptotic index of the oviduct. Furthermore, addition of purified BMP-7 induces apoptosis in primary oviduct cells. This report demonstrates that the function of BMP-7 in the oviduct involves the induction of apoptosis and that estrogen plays an important role in opposing this function.

Translational status of proenkephalin mRNA in the rat reproductive system.

The mRNA for the opioid peptide precursor proenkephalin is widely distributed throughout the male and female reproductive systems of rodents. In the present studies, the concentrations of proenkephalin-derived peptides in selected reproductive tissues of the rat have been determined. When compared with previously characterized tissues such as brain, the peptide contents in reproductive tissues were unexpectedly low relative to the abundance of proenkephalin mRNA. This suggested that either translation of proenkephalin mRNA is relatively inefficient in reproductive tissues or that the turnover of proenkephalin products occurs at a higher rate, or both. To distinguish between these possible mechanisms, the polysomal distributions of proenkephalin mRNA in different rat reproductive tissues and in rat brain were determined. In adult rat testis, in which the predominant proenkephalin RNA is the 1700-nucleotide form present in spermatogenic cells, the transcript was found to be mainly associated with translationally inactive ribonucleoprotein fractions. In contrast, the 1450-nucleotide form of proenkephalin mRNA appeared to be translated to a similar extent in rat brain, epididymis, ovary, and somatic cells of the immature rat testis. It therefore appears that inefficient translation of proenkephalin mRNA in spermatogenic cells is a major determinant of the low ratio of proenkephalin peptides to RNA in the adult rat testis, while posttranslational mechanisms (most likely peptide turnover) are involved in the rat epididymis, ovary, and presumably other reproductive tissues. These findings also indicate that mRNA and/or translation product concentrations within a given tissue are not always accurate indicators of the level of peptide or protein production.

Gonadal steroids regulate proenkephalin gene expression in a tissue-specific manner within the female reproductive system.

Proenkephalin gene expression undergoes marked changes within the female reproductive system of rodents during the estrous cycle and in pregnancy. In order to define the factors responsible for this regulation, the effects of 17-beta-estradiol (E2) and progesterone (P4) have been examined in the ovary and uterus. In the ovary of the rat and hamster, E2 and P4 were without effect on proenkephalin RNA levels when injected individually. However, P4 increased ovarian transcript abundance 2- to 3-fold after pretreatment of animals with E2. In the uterus of either species, E2 had little effect but P4 alone stimulated both proenkephalin RNA abundance and total content severalfold. Glucocorticoids and androgen reproduced this stimulatory effect on proenkephalin transcript levels. The interaction between E2 and P4 on proenkephalin gene expression in the uterus varied with species. In the rat, E2 inhibited stimulation by P4, while in the hamster uterus the two hormones had a synergistic effect, producing a 15-fold elevation of proenkephalin RNA abundance and a 50-fold increase in total uterine content. These distinct steroid responses appear to account for tissue- and species-related differences in the variation of proenkephalin gene expression during the estrous cycle in the rodent ovary and uterus. The stimulatory effect of P4 was shown to involve direct steroid action on the uterus and to be inhibited both by the steroid antagonist RU-486 and the transcriptional inhibitor actinomycin D. These data are consistent with receptor-mediated activation of proenkephalin gene transcription in uterine cells.(ABSTRACT TRUNCATED AT 250 WORDS)

Estrous cycle- and pregnancy-related differences in expression of the proenkephalin and proopiomelanocortin genes in the ovary and uterus.

Expression of the genes for two opioid peptide precursors, proenkephalin and POMC, was examined within the female reproductive system of rodents as a function of the estrous cycle and during pregnancy. Proenkephalin RNA was found to change markedly during the estrous cycle in both the ovary and uterus (approximately 6- and 3-fold, respectively). The highest concentrations occurred at estrus in the rat ovary and at metestrus and diestrus in the rat uterus. In sharp contrast to proenkephalin RNA, the abundance of POMC RNA remained relatively constant throughout the estrous cycle in both tissues. Similar results were obtained in the cycling hamster ovary. During pregnancy, the concentrations of proenkephalin RNA in the rat ovary showed little variation, while in the uterus a 4-fold increase in this transcript was observed. The effects of pregnancy on POMC RNA were the reverse of this pattern; its abundance increased 2-fold in the ovary and did not vary substantially in the uterus. These differences in the expression of proenkephalin and POMC genes during the estrous cycle and pregnancy suggest that these two opioid peptide precursors are associated with distinct functional roles within the female reproductive system.

Characteristics of galacturonic Acid oligomers as elicitors of casbene synthetase activity in castor bean seedlings.

Partial digestion of polygalacturonic acid with polygalacturonase isolated from Rhizopus stolonifer produces a mixture of alpha-1,4-d-galacturonide oligomers which act to elicit casbene synthetase activity in castor bean (Ricinus communis L). These oligomers were separated by anion exchange chromatography on DEAE Sephadex A-25 into discrete sizes and their degrees of polymerization were analyzed by fast atom bombardment mass spectrometry. A minimum degree of polymerization of nine units appears to be required for elicitor activity; trideca-alpha-1,4-d-galacturonide was the most active of the oligomers tested. Methyl-esterification of the carboxylate groups greatly diminishes the elicitor activity of the oligomers, a finding which suggests a requirement for the polyanionic character of the oligomers for full activity. The fact that a number of other polyanionic polymers tested as casbene synthetase elicitors did not show significant activity indicates that structural features other than the polyanionic character are also necessary for activity.

Differential expression of opioid peptide genes by testicular germ cells and somatic cells.

Spermatogenic cells have been previously shown to be a major site of testicular proenkephalin gene expression. Using RNA gel-blot analysis of purified mouse and hamster germ cells and of testes from prepuberal and germ cell-deficient mutant mice, we now have demonstrated that, in addition to its previously described expression by somatic (Leydig) cells, the gene for a second opioid peptide precursor, pro-opiomelanocortin (POMC), is also expressed by spermatogenic cells. Of particular significance is the finding that the RNAs for proenkephalin and POMC are differentially regulated during spermatogenesis. Two forms of POMC RNA were detected in mouse testis, a larger component 675- to 750-nucleotides (nt) in size common to somatic and spermatogenic cells and a smaller 625-nt RNA found only in pachytene spermatocytes. Two distinct, cell-specific proenkephalin RNAs were also shown to be present in mouse testis: a 1700-nt transcript previously shown to be expressed by spermatogenic cells and a 1450-nt form associated with somatic cells. These data suggest that proenkephalin- and POMC-derived peptides are produced by both somatic cells and germ cells in the testis and in germ cells these two families of opioid peptides may function at different stages of spermatogenesis.

Osteogenic protein-1 mRNA in the uterine endometrium.

OP-1, a bone morphogenetic protein (BMP) in the TGF-beta superfamily, is expressed at high levels in the kidney and in the endometrium of the uterus of non-pregnant mice. During pregnancy the OP-1 mRNA in the endometrium rapidly declined at 4 dpc. Thereafter, OP-1 transcripts were detected in the trophoblastic giant cells of the placenta and the fetal tissues. The uterine OP-1 mRNA downregulation could be mimicked by administration of 17 beta-estradiol but not by progesterone to non-pregnant animals. In contrast, OP-1 mRNA expression in kidneys and ovaries was not affected by pregnancy or estrogen treatment. The selective effect of estrogen on OP-1 mRNA in the uterus suggests that OP-1 expression is regulated by tissue specific mechanisms.

Osteogenic protein-2. A new member of the transforming growth factor-beta superfamily expressed early in embryogenesis.

Osteogenic protein-2, OP-2, a new member of the transforming growth factor-beta (TGF-beta) superfamily, closely related to the osteogenic/bone morphogenetic proteins, was discovered in mouse embryo and human hippocampus cDNA libraries. The TGF-beta domain of OP-2 shows 74% identity to OP-1, 75% to Vgr-1, and 76% to BMP-5, hence OP-2 may also have bone inductive activity. The genomic locus of OP-2 has seven exons, like OP-1, and spans more than 27 kilobases (kb). In the C-terminal TGF-beta domain, OP-2 has a unique additional cysteine. Mouse embryos express relatively high levels of OP-2 mRNA at 8 days, two species of 3 and 5 kb. A careful study of mRNA expression of the osteogenic proteins in specific organs revealed discrete mRNA species for BMP-3, BMP-4, BMP-5, and BMP-6/Vgr-1 in lung or liver of young and adult mice. OP-1 is expressed in kidney; however, OP-2 and BMP-2 mRNAs were not detected in any organs studied, suggesting an early developmental role.