Pharmacological Characterization of Somatostatin Receptors in the Rat Cerebellum During Development

Abstract: Somatostatin (SRIF) receptors (SRIF-Rs) are transiently expressed in a germinative lamina of the rat cerebellum, the external granule cell layer. The appearance of SRIF-Rs coincides with the expression of SRIF-like immunoreactivity in the cerebellum. However, the cellular location of SRIF-Rs does not overlap with the distribution of SRIF-like immunoreactivity, with the latter being restricted to ascending fibers arising from the brainstem, to perikarya within the white matter, and to some Purkinje cells. The characterization of SRIF-Rs in the immature (13–day-old) rat cerebellum was conducted by means of binding experiments in membraneenriched preparations and autoradiography, using two radioligands, [¹²⁵I-Tyr⁰,D-Trp⁸]SRIF-14 ([¹²⁵I-Tyr⁰,d -Trp⁸]S14) and ^I25I-SMS 204–090. The pharmacological profile of cerebellar SRIF-Rs was compared with that of adult cortical SRIF-Rs. Saturation studies performed in 13–day-old rat cerebellum showed that the A'_D values for [¹²⁵I-Tyr⁰,D-Trp⁸]S14 and ¹²⁵I-SMS 204–090 binding were 0.35 ± 0.04 and 0.39 ± 0.01 nM, respectively. The corresponding B_max values were 52.7 ± 4.8 and 49.9 ± 5.3 fmol/mg of protein, a result indicating that radioligands with high specific radioactivity (2,000 Ci/mmol) bind to a single class of high-affinity sites (SSI). Competition studies showed that different D-Trp-sub-stituted analogs displaced [¹²⁵I-Tyr⁰,d -Trp⁸]S14 binding with Hill coefficients >1, a finding indicating the existence of different subtypes of binding sites. When [Tyr⁰,d -Trp⁸]S14 was used as a competitor, two sites were resolved by Scatchard analysis in both 13–day-old cerebellum and adult cerebral cortex. The higher-affinity sites correspond to the SSI subtype identified in saturation experiments, whereas the lower-affinity sites most likely correspond to the SS2 subtype. Ionic supplementation studies showed that divalent cations were required to obtain maximal specific binding on the SSI sites. In particular, Mn²⁺ was the most efficient cation for promoting binding of [¹²⁵I-Tyr⁰,d -Trp⁸]S14. Addition of GTP to the incubation buffer induced a marked reduction of specific binding. The results obtained by membrane binding assays were similar to those obtained by quantitative autoradiography, a result indicating that the microenvironment of SRIF-Rs was preserved in both types of tissue preparations. Receptors expressed in the developing rat cerebellum exhibited the same K_D and similar pharmacological profile as those observed in the adult rat cortex. These results show that SRIF-binding sites transiently expressed in the external granule cell layer of the cerebellum of young rats are indistinguishable from adult rat brain SRIF-Rs. The extremely high density of SRIF-Rs found in the external granule cell layer in 13–day-old rats suggests that SRIF may play a pivotal role in the proliferation and/or differentiation of these germinative cells.     

Evidence for the presence of diacylglycerol kinase in rat brain myelin

The previous demonstration that incubation of brain slices with [³²P]phosphate brings about rapid tabeling of phosphatidic acid in myelin suggests that the enzyme involved should be present in this specialized membrane. DAG kinase (ATP:1,2-diacyglycerol 3-phosphotransferase, E.C. 2.7.1.107) is present in rat brain homogenate at a specific activity of 2.5 nmol phosphatidic acid formed/min/mg protein, while highly purified myelin had a much lower specific activity (0.29 nmol/min/mg protein). Nevertheless, the enzyme appears to be intrinsic to this membrane since it can not be removed by washing with a variety of detergents or chelating agents, and it could not be accounted for as contamination by another subcellular fraction. Production of endogenous, membrane-associated, diacylglycerol (DAG) by PLC (phospholipase C) treatment brought about translocation from soluble to particulate fractions, including myelin. Another level of control of activity involves inactivation by phosphorylation; a 10 min incubation of brain homogenate with ATP resulted in a large decrease in DAG kinase activity in soluble, particulate and myelin fractions.     

Cloning and sequencing the genes encoding uptake-hydrogenase subunits of Rhodocyclus gelatinosus

Summary Rhodocyclus gelatinosus grew photosynthetically in the light and consumed H₂ at a rate of about 665 nmol/min per mg protein. The uptake-hydrogenase (H₂ase) was found to be membrane bound and insensitive to inhibition by CO. The structural genes of R. gelatinosus uptake-H₂ase were isolated from a 40 kb cosmid gene library of R. gelatinosus DNA by hybridization with the structural genes of uptake-H₂ase of Bradyrhizobium japonicum and Rhodobacter capsulatus. The R. gelatinosus genes were localized on two overlapping DNA restriction fragments subcloned into pUC18. Two open reading frames (ORF1 and ORF2) were observed. ORF1 contained 1080 nucleotides and encoded a 39.4 kDa protein. ORF2 had 1854 nucleotides and encoded a 68.5 kDa protein. Amino acid sequence analysis suggested that ORF1 and ORF2 corresponded to the small (HupS) and large (HupL) subunits, respectively, of R. gelatinosus uptake-H₂ase. ORF1 was approximately 80% homologous with the small, and ORF2 was maximally 68% homologous with the large subunit of typical membrane-bound uptake-H₂ases.     

Bradykinin Stimulates Phosphoinositide Hydrolysis and Mobilization of Arachidonic Acid in Dorsal Root Ganglion Neurons

Cultures of fetal rat dorsal root ganglion neurons (7 days in culture) were prelabeled with myo-[3H]inositol or [3H]arachidonic acid for 24 h and stimulated with 10 microM bradykinin for time intervals of 5-300 s. The incubation was terminated by addition of 5% perchloric acid to extract inositol phosphates or organic solvent to extract lipids. Inositol phosphates were resolved by anion-exchange HPLC; lipids were resolved by TLC. Bradykinin stimulation resulted in a 10-fold increased accumulation of inositol 1,4,5-trisphosphate (IP3) and inositol bisphosphate (IP2) (fivefold) by 5 s. The increase in IP3 was transient (half maximal by 1 min), whereas stimulated IP2 levels were sustained for several minutes. Even longer term increases were observed in inositol monophosphate. Stimulation also resulted in a threefold increase in arachidonic acid which was preceded by transient increases in diacylglycerol (twofold) and arachidonoyl-monoacylglycerol (threefold). The temporal lag in the accumulation of arachidonic acid with respect to diglyceride and monoglyceride suggested the involvement of di- and monoglyceride lipases in arachidonic acid mobilization. A role for phospholipase A2 is also possible, because pretreatment of cultures with quinacrine partially blocked arachidonic acid release. Bradykinin-stimulated arachidonic acid release was decreased in the presence of calcium channel blockers nifedipine or verapamil (50 microM), or EDTA (2.5 mM). The role of calcium was verified further in that accumulation of phosphatidic acid, diacylglycerol, and arachidonic acid was maximally stimulated by treatment with the calcium ionophore A23187 (20 microM).     

Effect of lysophosphatidylcholine on the NADH-ferricyanide reductase activity associated with the plasma membranes of corn roots

Plasma membranes from corn roots (Zea mays L.) were isolated by aqueous two-phase partitioning. A fraction enriched in a vanadate-sensitive ATPase showed characteristics of a plasma membrane ATPase. The sidedness of these vesicles was 89% right-side-out, as evaluated by the ATPase latency. A NADH-ferricyanide reductase was associated with these plasma membrane vesicles. The rate of ferricyanide reduction was 1.3 μmol · min⁻¹·mg⁻¹ protein and was strongly enhanced by the addition of lysophosphatidylcholine (LPC). The effect of this detergent on membrane solubilization and reductase activity was particularly studied. This type of detergent treatment revealed two pH optima (7.0 and 5.0) for the reductase activity, which exhibited biphasic kinetics in the absence or presence of the detergent. These data suggest that two or more reductases could be involved. In addition, membrane vesicle solubilization and determination of ATPase and reductase latency were simultanously studied. From these experiments, it is postulated that the reductase, which exhibits an optimum pH at 7.0 and is slightly stimulated by LPC, could be located on the external side of the plasmalemma. In contrast, the reductase at pH 5.0 strongly stimulated by the detergent treatment, is probably located on the internal side of the membrane, such as the catalytic site of ATPase. Finally, a possible direct action of LPC on the enzymes, is discussed.     

Analysis of the topological changes induced on cells exposed to adhesive or mechanical stimuli

Fluorescent probes are widely used to study cell structure and function. However, few reports were devoted to a quantitative analysis of the intracellular distribution of fluorescent markers. In the present work, we describe the topographical changes of surface and cytoskeletal markers on individual cells subjected to adhesive or mechanical interaction. Conjugates were prepared with a cytotoxic T-lymphocyte clone and target cells. Specific antigens, membrane phospholipids, surface glycoconjugates, and polymerized actin were labeled with fluorescent antibodies or biochemical probes. The analysis of fluorescence distributions in conjugates demonstrated a selective reorganization of the plasma membrane with a gathering of some molecular species in the intercellular adhesion area. Furthermore, individual phagocytic cells were sucked into glass micropipets, then stained with fluorescent phallacidin to analyze the effect of mechanical efforts on the cytoskeleton organization. The concentration of polymerized actin was found to be similar in mechanicallyinduced protrusions and whole cells. It is concluded that adhesive interactions may result in marked cell polarization and formation of membrane zones with a particular biochemical composition. The submembranar cytoskeleton might play a role in this process.     

Identification and characterization of three genes and two pseudogenes on chromosome 13

A study was conducted on the feasibility of isolating genes and pseudogenes that map to chromosome 13 by a hybridization-based approach using a 13-specific library and pools of repeat-free cDNA clones. Five pairs of cDNA and chromosome 13 genomic clones were identified and characterized. Partial or full-length sequence was derived from all cDNAs, and database searches were performed for putative gene identification. Partial sequence was also obtained from the chromosome 13 genomic clones for comparison with those of the hybridizing cDNAs. As a result of these analyses we identified three genes, a putative homologue of a porcine mRNA encoding an unidentified hepatic protein, a putative homologue of a yeast integral membrane protein, and a gene for a translationally controlled tumor protein, and two processed pseudogenes, ribosomal proteins L23a and S3a. The latter was formerly identified as the v-fos transformation effector gene, Fte-1, and recently cited as a possible candidate for the BRCA2 gene on chromosome 13. All genes and pseudogenes were localized to cytogenetic bands by in situ hybridization of metaphase chromosomes with probes derived from the chromosome 13 genomic clones.     

Origin of cholesterol in myelin

We review some of the older literature concerning metabolic turnover of cholesterol in the nervous system. The overall picture is that incorporation of radioactive precursors into brain cholesterol is roughly proportional to the rate of myelination and that, once incorporated, radioactive cholesterol is relatively stable metabolically. We outline a strategy for demonstrating the source (local synthesis or uptake from the circulation) of cholesterol in brain. The experimental design involves determining the rate of accumulation of cholesterol this is calculated as the increasing amounts of sterol in brain at successive time intervals during development. The rate of appearance of newly synthesized cholesterol is determined from incorporation of radioactivity from³H₂O (injected i.p. several hours prior to sacrifice) into cholesterol. The radioactivity associated with the sterol fractions and the specific activity of body water determined from the serum can be used to calculate the absolute amount of sterol newly synthesized during the time when³H₂O was present. The results obtained demonstrated that all of the bulk cholesterol accumulating in brain can be accounted for by newly synthesized cholesterol. None of the radioactive cholesterol came from the circulation, since cholesterol feeding suppressed cholesterol biosynthesis in the liver and specific radioactivity of circulating cholesterol was negligible. Thus, almost all cholesterol accumulating in brain during development is locally synthesized. Special issue dedicated to Dr. Marion R. Smith.     

Plasma and erythrocyte manganese concentrations

This study was carried out to assess manganese (Mn) status after an acute episode of myocardial infarction. Plasma and erythrocyte Mn concentrations were measured from admission to hospital to day 15 postadmission in 21 patients suffering from acute myocardial infarction and in three control groups. The determination of Mn in these biological fluids was performed by electrothermal atomic absorption spectrometry. Plasma Mn was higher (p<0.01) and erythrocyte Mn was similar in the acute myocardial infarction group compared to healthy age-matched control group. Plasma and erythrocyte Mn remained unchanged during the 2 wk after acute myocardial infarction and were not correlated to enzyme activities. A decrease of erythrocyte Mn with age, expressed in nmol/L, was noted (p<0.02). These results suggest that plasma and erythrocyte Mn do not provide an indication of myocardial damage. Nonetheless, Mn status in elderly merits further attention.