The induction of synthesis of the "female" yolk precursor protein vitellogenin (VTG) in male fish by estrogenic chemicals in the environment has been demonstrated in many recent reports. However, little is known about the organismal and biological significance of this phenomenon. To examine the relationship between VTG production in male fish and reproductive impairment, adult male medaka were exposed to 4-tert-octylphenol (OP), a known environmental estrogen, in concentrations ranging ftom 20 to 230 ppb for 21 days, under flow-through conditions. Following exposure, male fish were mated, in the absence of OP, with unexposed females.Breeding groups composed of exposed males and control females produced about 50% fewer eggs than control groups. VTG levels in serum of male fish increased with increasing OP exposure concentration and decreased after OP exposure was discontinued. Nevertheless, significant correlations (pO.0l) were observed between VTG levds in exposed male fish and 1) OP exposure concentrations, 2) percent of fertilized eggs, and 3) survival of embryos. OP-induced VTG synthesis and reproductive impairment appear to be closely linked phenomena. Histological exmination indicated spermatogenesis in OP-exposed fish was inhibited, and some exposed fish had oocytes in their testes. Finally, OP caused a significant increase in the number ofabnormally developing embryos, suggesting that .OP may be genotoxic as well as estrogenic. Environmental estrogens, or xenoestrogens, chemicals with bioactivity similar to the endogenous female hormone estrogen, are known to affect development and sexual maturation of (in)vertebrates. Xenoestrogens can exert their action by binding to the cell's estrogen receptor (ER), but they can also act through ER-independent mechanisms (5). Reported adverse effects in humans include increased incidences of breast cancer and reduced sperm counts, whereas wildlife populations affected by xenoestrogens display a variety of reproductive alterations such as cryptorchidism in the Florida panther, small baculum in young male otters, small penises in alligators, sex reversal in fish, and egg-shell thinning and altered social behavior in birds (3,4,6-8).Alkylphenol polyethoxylates (APEs) are nonionic surfactants widely used in the manufacturing of cleaning agents, plastics, paper, cosmetics, and food products (9). APEs are discharged from industrial wastewater as nontoxic, hydrophilic compounds. However, bacteria metabolize APEs into hydrophobic, estrogenic by-products, including p-nonylphenol and 4-tertoctylphenol (OP), that bioaccumulate in aquatic wildlife and may affect reproductive ability (10,11). These metabolites bind to the ER of fish and mammals (12)(13)(14), induce transcriptional activation of estrogen-responsive genes (15), and induce production of the yolk protein vitellogenin (VTG) in fish hepatocyte cell culture and in male rainbow trout (16)(17)(18)(19)(20). Of the alkylphenols examined, OP appears to be the most biologically active (9).VTG is normally synthesized in the liv...
In closed recirculating systems, a particulate matter consisting of bacteria, algae, fungi, and detritus develops spontaneously. This microbial floc can serve as a high‐protein food source for finfish and shellfish and has the potential to supplement the protein required in shrimp feed. To advance the use of microbial floc as a feed supplement, it is necessary to manipulate its microbial components, which requires thorough characterization of the bacterial components. Pacific white shrimp, Litopenaeus vannamei, were raised in a closed recirculating system, and water was compared to the contents of shrimp foreguts and hindguts. Water consistently contained less microbial biomass than did shrimp guts, but 16S rDNA sequences indicated that water was more diverse than shrimp guts. Phylogenetic analysis of 16S rDNA sequences retrieved from water and shrimp foregut grouped these sequences into various unrelated generic clusters. Fatty acid analysis demonstrated that shrimp feed was not a major contributor of microbial fatty acids to shrimp tanks, as the feed mostly contained polyunsaturated fatty acids, which are typically found only in eukaryotes. It is hoped that elucidating more details about the various components of microbial floc will help in understanding its development and will lead to its use as a high‐protein feed supplement.
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