Field assessment of numerical impacts of coastal sewage disposal on fish larvae relative to natural variability

Sewage disposal in aquatic environments can have significant impacts on assemblages of organisms. There have been few field investigations on effects of sewage disposal on fish larvae. Data on abundances of larvae, current velocities and the size and shape of sewage plumes from point-source shoreline outfalls off Sydney (Australia) indicated that alongshore currents could transport large numbers of fish larvae into plumes, potentially affecting their health. Assemblages of fish larvae in surface sewage plumes differed to those in distant shelf (control) waters, but no such impacts were detected for assemblages in subsurface (20 m depth) waters beneath plumes. No predictable negative or positive numerical responses of fish larvae to sewage disposal were detected. Abundances of fish larvae fluctuated greatly in space and throughout time, and responses appeared to vary between taxa, outfalls and sampling periods. However, the large inherent level of natural spatial and temporal variability in abundances of larvae confounded the detection of possible impacts. Future field investigations need to focus on effects of sewage disposal on the health and condition of fish larvae. Designs for future field-based studies are discussed.     

Specific overproduction of very late antigen 1 integrin in two human neuroblastoma cell lines selected for resistance to detachment by an Arg-Gly-Asp-containing synthetic peptide

Very late antigen (VLA) 1 is a member of the family of integral plasma-membrane glycoproteins known as integrins. It is a heterodimer composed of an alpha subunit of Mr 200,000, noncovalently associated with a beta subunit of Mr 110,000 which is shared by other VLA molecules (VLA-2-5). Unlike most of the other VLA proteins which have been shown to be receptors for various extracellular matrix proteins, the ligand for VLA-1 is unknown. Utilizing polyclonal antisera against the human fibronectin receptor as well as alpha subunit-specific monoclonal antibodies and cDNA probes, we have been able to demonstrate that in two human neuroblastoma cell lines, IMR-32 and SK-N-SH, the common beta subunit is associated with alpha 1, alpha 2, alpha 3, and alpha 5 subunits. By culturing these two cell lines in the presence of a synthetic peptide, Gly-Arg-Gly-Asp-Ser-Pro, which contains the Arg-Gly-Asp cell attachment promotion tripeptide, we have isolated variant cell lines resistant to the detachment effects of this peptide. Peptide-resistant SK-N-SH and IMR-32 neuroblastoma cells exhibit weaker attachment to type I collagen and laminin, but a similar level of attachment to fibronectin as compared to the parental cells. Although the peptide-resistant variant cell lines proliferate at a rate similar to that of the parental cell lines, they stably overproduce (up to 20-fold) the alpha 1 subunit (VLA-1) specifically; and in the IMR-32 variant cells, the common beta 1 subunit is also overproduced. The level of expression of alpha 2 and alpha 3 subunits, however, is considerably reduced and that of the alpha 5 subunit is unchanged relative to the parental cells. These data suggest that the expression of integrin alpha subunits can be regulated differentially and independently of the beta subunit and that the VLA-1 heterodimer has an important function in mediating Arg-Gly-Asp-dependent cell adhesion or other phenotypic properties in human neuroblastoma cells.     

Intestinal lactase in the neonatal rat. Maturational changes in intracellular processing and brush-border degradation

The mechanism of decline in the catalytic activity of intestinal lactase during neonatal maturation has not been defined, but a shift in the lactase subunit synthesis from an active 130-kDa subunit to an inactive 100-kDa species has now been noted in the adult rat (Quan, R., Santiago, N. A., Tsuboi, K. K., and Gray, G. M. (1990) J. Biol. Chem. 265, 15882-15888). The subunit structure, synthesis, intracellular assembly, and subsequent degradation of lactase from the brush-border surface membrane was examined in 15-day-old pre-weaned and 30-day-old post-weaned intact rats. Lactase was labeled intraintestinally with [35S]methionine, isolated from Triton-solubilized membranes with monospecific polyclonal anti-lactase, and analyzed by sodium dodecyl sulfate-polyacrylamide gel electrophoresis and autoradiography. The protein-stained gel revealed subunits of 225 and 130 kDa, the latter species predominating in both the pre- and post-weaned state. The distinct adult-type 100-kDa moiety was present in post-weaned animals while only a trace of a slightly larger (approximately 110 kDa) species was observed in pre-weaned animals. Quantitation of radioactivity in newly synthesized lactase revealed an increasing prominence of the 100-kDa species in post-weaned rats (130/100 incorporation ratio: pre-weaned 6.2; post-weaned 3.3). Accumulation of newly labeled lactase in brush-border membranes after intraperitoneal [35S]methionine labeling was similar in both groups at 3 h. Despite these comparable rates of lactase synthesis, assembly and insertion in the pre- and post-weaned state, subsequent removal of the 130-kDa unit was more rapid in post-weaned animals (t1/2 = 11 h; pre-weaned t1/2 = 37 h). In intact rats, the neonatal maturational decline in lactase catalytic activities involves both a shift to production of the inactive 100-kDa subunit and increased membrane surface degradation of the active 130-kDa subunit.     

A taxonomy of transcriptomic cell types across the isocortex and hippocampal formation

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