Characterization and distribution of bombesin binding sites in the goldfish hypothalamic feeding center and pituitary

Bombesin (BBS)/gastrin-releasing peptide (GRP) binding sites were characterized and their distribution examined in the goldfish brain and pituitary by radioligand binding and autoradiography. Binding of ¹²⁵I-[Tyr⁴]-BBS-14 to tissue sections was found to be saturable, reversible, time-dependent and displaceable by BBS/GRP-like peptides. Analysis of saturable equilibrium binding revealed a one-site model fit with a K_d of 0.665 ± 0.267 nM. This binding site displayed high affinity for members of the BBS subfamily of peptides, including GRP10 (K_i; 0.292 ± 0.038 nM) and GRP27 (K_i; 2.034 ± 1.597 nM), but showed no affinity for the BBS_8–14 fragment. While an approximate 100-fold lower binding affinity was displayed by the binding site for neuromedin B (K_i; 61.5 ± 28.2 nM), litorin was highly effective in displacing radiolabeled BBS binding (K_i; 1.469 ± 0.427 nM). The localization of saturable and high affinity BBS/GRP binding sites in specific areas of the goldfish brain and pituitary generally revealed a similar anatomical distribution to BBS/GRP-like immunoreactive material reported previously by our laboratory. Quantitative densitometric analysis of radiolabeled BBS binding to brain nuclei and the pituitary revealed a moderate concentration of BBS/GRP binding sites in the hypothalamic feeding area, including the nucleus diffusus lobi inferioris, nucleus recessus lateralis, nucleus lateral tuberis, and nucleus anterior tuberis. Other brain nuclei known to influence the brain feeding center which contained a high density of BBS/GRP binding sites included nuclei of the dorsal and ventro-medial telencephalon, the preoptic hypothalamus, and the optic tectum. High densities of BBS/GRP binding sites were also localized in the dorsal cerebellum, and nucleus habenularis. In the pituitary, BBS/GRP binding sites were present in high concentration in the neurointermediate lobe, with a relatively lower density localized in the pars distalis. The present study further supports a role for BBS/GRP-like peptides in the regulation of feeding behavior and anterior pituitary hormone secretion in teleosts.     

Alterations in Phosphatidylcholine Metabolism of Stretch-Injured Cultured Rat Astrocytes

Abstract: The primary objective of this study was to determine the influence of stretch-induced cell injury on the metabolism of cellular phosphatidylcholine (PC). Neonatal rat astrocytes were grown to confluency in Silastic-bottomed tissue culture wells in medium that was usually supplemented with 10 µM unlabeled arachidonate. Cell injury was produced by stretching (5–10 mm) the Silastic membrane with a 50-ms pulse of compressed air. Stretch-induced cell injury increased the incorporation of [³H]choline into PC in an incubation time- and stretch magnitude-dependent manner. PC biosynthesis was increased three- to fourfold between 1.5 and 4.5 h after injury and returned to control levels by 24 h postinjury. Stretch-induced cell injury also increased the activity of several enzymes involved in the hydrolysis [phospholipase A₂ (EC 3.1.1.4) and C (PLC; EC 3.1.4.3)] and biosynthesis [phosphocholine cytidylyltransferase (PCT; EC 2.7.7.15)] of PC. Stretch-induced increases in PC biosynthesis and PCT activity correlated well (r = 0.983) and were significantly reduced by pretrating (1 h) the cells with an iron chelator (deferoxamine) or scavengers of reactive oxygen species such as superoxide dismutase and catalase. The stretch-dependent increase in PC biosynthesis was also reduced by antioxidants (vitamin E, vitamin E succinate, vitamin E phosphate, melatonin, and n-acetylcysteine). Arachidonate-enriched cells were more susceptible to stretch-induced injury because lactate dehydrogenase release and PC biosynthesis were significantly less in non-arachidonate-enriched cells. In summary, the data suggest that stretch-induced cell injury is (a) a result of an increase in the cellular level of hydroxyl radicals produced by an iron-catalyzed Haber-Weiss reaction, (b) due in part to the interaction of oxyradicals with the polyunsaturated fatty acids of cellular phospholipids such as PC, and (c) reversible as long as the cell's membrane repair functions (PC hydrolysis and biosynthesis) are sufficient to repair injured membranes. These results suggest that stretch-induced cell injury in vitro may mimic in part experimental traumatic brain injury in vivo because alterations in cellular PC biosynthesis and PLC activity are similar in both models. Therefore, this in vitro model of stretch-induced injury may supplement or be a reasonable alternative to some in vivo models of brain injury for determining the mechanisms by which traumatic cell injury results in cell dysfunction.     

Effects of vigorous exercise training and beta -agonist administration on bone response to hindlimb suspension

Bloomfield, Susan A., Beverly E. Girten, and Steven E. Weisbrode. Effects of vigorous exercise training and -agonist administration on bone response to hindlimb suspension.J. Appl. Physiol. 83(1):172-178, 1997.The effectiveness of dobutamine (Dob) inpreventing bone loss during 14 days of hindlimb suspension (Sus) wastested in exercise-trained (Ex; n = 25) and sedentary (Sed; n = 22) rats(age 155 days). One-half of each group was given Dob (2 mg · kg¹ · day¹)or saline (Sal). Histomorphometric measurements at midfemur revealed a17% smaller cortical bone area (CBA) and a 32% lower periostealmineral apposition rate (MAR) in suspended vs. nonsuspended Sed/Salrats. Dob abolished this decline in CBA in Sed/Sus rats, probably via an attenuation of the decrease in periosteal MAR; similarbut nonsignificant effects on cross-sectional moment of inertia wereobserved. Nonsuspended Ex rats had no change in bone CBA when CBA isindexed to body weight. Sus appeared to uncouple the relationshipbetween soleus weight and CBA. Dob attenuated the 43% decline insoleus weight after Sus in Ex but not in Sed rats. In summary, vigorousEx before Sus does not affect loss of bone mass due to unloading; Dobeffectively maintains CBA in Sed rats subjected to suspension.

     

Incorporation of [1-14C]-acetate into testosterone,androstenediol, dehydroepiandrosterone and progestogens by ram testis following human chorionic gonadotropin administration

Testicular steroidogenesis in rams was examined by constant infusion (3 hr) of [1-¹⁴C]-acetate into the testicular artery of four conscious standing animals.The following steroids (in order of decreasing levels of [¹⁴C] labeling) were secreted by the testis and found in testicular tissue: testosterone, dehydroepiandrosterone, 3β-hydroxy-5-androsten-17-one, androstenediol, 5-androsten-3β,17β-diol and 17-hydroxy-4-pregnene-3,20-dione. In addition, [¹⁴C] labeling of 17,20α-dihydroxy-4-pregnen-3-one occurred in testicular tissue but not in blood. This $\text{in vivo}$ system with the conscious standing ram demonstrated an operative Δ⁵ steroidal pathway to testosterone. The physiological significance of 17,20α-dihydroxy-4-pregnen-3-one is not yet explained in this species.     

Myxococcus xanthus synthesizes a stabilized messenger RNA during fruiting body formation

Initial characterization of the unstable 5S-to-16S RNA fraction from developingMyxococcus xanthus cells reveals that it is rapidly labeled with radioactive RNA precursor and is associated with polyribosomes and released by puromycin from polyribosomes. The total unstable RNA fraction from 10-min pulse-labeled developing cells has a half-life of 13 min, compared with a 4-min half-life for unstable RNA (presumptive mRNA) from vegetative cells pulse-labeled for 2 min. We conclude that this developmental 5S-to-16S RNA contains messenger RNA and that this mRNA is stabilized compared with that in vegetative cells.     

Analysis of the oligosaccharides on androgen-binding proteins: Implications concerning their role in structure/function relationships

Rat androgen-binding protein (rABP), human testosterone-binding globulin (hTeBG) and rabbit (rb) TeBG are heterodimeric proteins. The source of the heterogeneity arises from the differential glycosylation of a common protein core. This glycosylation results in a heavy subunit (more glycosylation) and a light subunit (less glycosylation). Glycosylation is one factor responsible for multiple charged species seen when rABP, hTeBG, and rbTeBG are analyzed by two-dimensional gel electrophoresis. Enzymatic digestion with the endoglycosidase, peptide: N-glycosidase F indicated that all three proteins have asparagine (Asn)-linked oligosaccharides as their major glycan substituent. Treatment with exoglycosidases provided evidence for terminal sialic acid, galactose and mannose and N-acetylglucosamine residues. About 16–22% of the mass of the heavy subunit and about 8–14% of the mass of the light subunit is contributed by carbohydrate.

Serial lectin chromatography indicated that rABP is glycosylated differently from hTeBG and rbTeBG. About 40% of the rABP contains tri and tetraantennary complex oligosaccharides, while only about 20% of the hTeBG and TeBG from pregnant rabbits contains these types of glycans. About 9% of the TeBG from male rabbits bears these types of oligosaccharides. All of the biantennary complex oligosaccharides on rABP are fucosylated on the chitobiose core, but only 8% of those on hTeBG and none of those on rbTeBG are fucosylated in this manner. All three proteins are glycosylated at more than one site. The data indicate that the proteins may have more than one type of oligosaccharide on them. It is likely that differences in glycosylation are responsible for different physiological roles of the proteins.     

Observations of a set of isomeric anti-lactose antibodies directed against a group D streptococcal polysaccharide

Sets of isomeric anti-lactose antibodies with specificity for the lactose units of a cell wall polysaccharide fromStreptococcus faecalis strain N were induced in rabbits immunized with a vaccine of nonviable cells of the organism. Such sets of anti-lactose antibodies were isolated from the serum of immunized animals by affinity chromatography on lactosyl-Sepharose. Gel electrofocusing experiments showed that the preparations consisted of multiprotein components. One preparation of antibodies of 13 isomers was separated into homogeneous components by liquid isoelectrofocusing. The individual isomeric antibodies exhibit specificity for the lactose units of the antigenic polysaccharide, possess isoelectric points in the range of 5.9–8.0, and belong to the IgG class of immunoglobulins, and each member yields one light chain and one heavy chain on dissociation in sodium dodecyl sulfate (SDS) and mercaptoethanol. These results have been interpreted as evidence for the assembly of the chains of isomeric antibodies by a single-chain pairing mechanism.