Characterization of the population of phagocytic cells in thymic cell suspensions

Rat thymic phagocytic cells were characterized in vitro using various light- and electron-microscopical techniques. Thymic cell suspensions were mechanically prepared and enriched for non-lymphoid cells, which were predominantly phagocytic and of three types. Type I showed acid phosphatase (APh) activity in small granules dispersed throughout the cytoplasm and were mostly Ia antigen-positive, although the Ia membrane label varied in intensity and distribution among individual cells. Only a few cells had endogenous peroxidase activity. The type-I cells could not be clearly distinguished morphologically from type-II or -III cells, and most likely comprise precursors of both these cell types. Type-II were large pale cells with many slender cell processes. These cells had APh activity centrally positioned, were strongly positive for Ia on the cell membrane and were negative for endogenous peroxidase. The cytoplasm frequently contained Birbeck granules, which unequivocally classifies these cells as the in vitro equivalent of the interdigitating cells present in the medullary area of the thymus in situ. Type-III cells were rounded with a smooth or ruffled cell membrane and contained vacuoles and many phagolysosomes. They were strongly positive for APh which was present throughout the cytoplasm. About 50% of these cells were positive for endogenous peroxidase in a pattern resembling resident macrophages. The cells were negative for Ia antigens. Type-III cells mostly likely represent the macrophages found in the cortical area of the thymus.     

Chromosomal mapping of Xenopus 5S genes: somatic-type versus oocyte-type.

Xenopus 5S RNA genes exhibit a pattern of differential expression during development in which some members (oocyte-type) are transcribed only in oocytes, while others (somatic-type) are expressed in both oocytes and somatic cells. Using cloned DNA probes specific for each gene type, we determined the positions of these genes on Xenopus metaphase chromosomes by in situ hybridization. Somatic-type 5S genes in both X. laevis and X. borealis are located at the distal end of the long arm of only one chromosome (number 9). The oocyte-type 5S RNA genes are found at the distal ends of the long arms of most Xenopus chromosomes, including chromosome 9. Thus, large scale differences in chromosomal location cannot explain the selective expression of these genes, as suggested previously.     

Two substrate sites in the renal Na+-d-glucose cotransporter studied by model analysis of phlorizin binding and-d-glucose transport measurements

Summary Time courses of phlorizin binding to the outside of membrane vesicles from porcine renal outer cortex and outer medulla were measured and the obtained families of binding curves were fitted to different binding models. To fit the experimental data a model with two binding sites was required. Optimal fits were obtained if a ratio of low and high affinity phlorizin binding sites of 1:1 was assumed. Na⁺ increased the affinity of both binding sites. By an inside-negative membrane potential the affinity of the high affinity binding site (measured in the presence of 3 mM Na⁺) and of the low affinity binding site (measured in the presence of 3 or 90 mM Na⁺) was increased. Optimal fits were obtained when the rate constants of dissociation were not changed by the membrane potential. In the presence of 90 mM Na⁺ on both membrane sides and with a clamped membrane potential,K _D values of 0.4 and 7.9 M were calculated for the low and high affinity phlorizin binding sites which were observed in outer cortex and in outer medulla. Apparent low and high affinity transport sites were detected by measuring the substrate dependence ofd-glucose uptake in membrane vesicles from outer cortex and outer medulla which is stimulated by an initial gradient of 90 mM Na⁺(out>in). Low and high affinity transport could be fitted with identicalK _m values in outer cortex and outer medulla. An inside-negative membrane potential decreased the apparentK _m ofhigh affinity transport whereas the apparentK _m of low affinity transport was not changed. The data show that in outer cortex and outer medulla of pighigh and low affinity Na⁺-d-glucose cotransporters are present which containlow and high affinity phlorizin binding sites, respectively. It has to be elucidated from future experiments whether equal amounts of low and high affinity transporters are expressed in both kidney regions or whether the low and high affinity transporter are parts of the same glucose transport moleculc.     

The effect of actin and phosphorylation on the tryptic cleavage pattern of Acanthamoeba myosin IA

The Mg2+-ATPase activity of Acanthamoeba myosin IA is activated by F-actin only when the myosin heavy chain is phosphorylated at a single residue. In order to gain insight into the conformational changes that may be responsible for the effects of F-actin and phosphorylation on myosin I ATPase, we have studied their effects on the proteolysis of the myosin IA heavy chain by trypsin. Trypsin initially cleaves the unphosphorylated, 140-kDa heavy chain of Acanthamoeba myosin IA at sites 38 and 112 kDa from its NH2 terminus and secondarily at sites 64 and 91 kDa from the NH2 terminus. F-actin has no effect on tryptic cleavage at the 91- and 112-kDa sites, but does protect the 38-kDa site and the 64-kDa site. Phosphorylation (which occurs very near the 38-kDa site) has no detectable effect on the tryptic cleavage pattern in the absence of F-actin or on F-actin protection of the 64-kDa site, but significantly enhances F-actin protection of the 38-kDa site. Protection of the 64-kDa site is probably due to direct steric blocking because F-actin binds to this region of the heavy chain. The protection of the 38-kDa site by F-actin may be the result of conformational changes in this region of the heavy chain induced by F-actin binding near the 64-kDa site and by phosphorylation. The conformational changes in the heavy chain of myosin IA that are detected by alterations in its susceptibility to proteolysis are likely to be related to the conformational changes that are involved in the phosphorylation-regulated actin-activated Mg2+-ATPase activities of Acanthamoeba myosins IA and IB.     

Cooperative dependence of the actin-activated Mg2+-ATPase activity of Acanthamoeba myosin II on the extent of filament phosphorylation

The actin-activated Mg2+-ATPase of myosin II from Acanthamoeba castellanii is regulated by phosphorylation of 3 serine residues at the tip of the tail of each of its two heavy chains; only dephosphorylated myosin II is active, whereas the phosphorylated and dephosphorylated forms have identical Ca2+-ATPase activities and Mg2+-ATPase activities in the absence of F-actin. We have now chemically modified phosphorylated and dephosphorylated myosin II with N-ethylmaleimide (NEM). The modification occurred principally at a single site within the NH2-terminal 73,000 Da of the globular head of the heavy chain. NEM-myosin II bound to F-actin and formed filaments normally, but the Ca2+- and Mg2+-ATPase activities of phosphorylated and dephosphorylated myosin II and the actin-activated Mg2+-ATPase activity of NEM-dephosphorylated myosin II were inhibited. Only filamentous myosin II has actin-activated Mg2+-ATPase activity. Native phosphorylated myosin II acquired actin-activated Mg2+-ATPase activity when it was co-polymerized with NEM-inactivated dephosphorylated myosin II, and the increase in its activity was cooperatively dependent on the fraction of NEM-dephosphorylated myosin II in the filaments. From this result, we conclude that the specific activity of each molecule within a filament is independent of its own state of phosphorylation, but is highly cooperatively dependent upon the state of phosphorylation of the filament as a whole. This enables the actin-activated Mg2+-ATPase activity of myosin II filaments to respond rapidly and extensively to small changes in the level of their phosphorylation.     

A microdeletion of less than 250 kb, including the proximal part of the FMR-1 gene and the fragile-X site, in a male with the clinical phenotype of fragile-X syndrome

A gene designated "FMR-1" has been isolated at the fragile-X locus. One exon of this gene is carried on a 5.1-kb EcoRI fragment that exhibits length variation in fragile-X patients because of amplification of or insertion into a CGG-repeat sequence. This repeat probably represents the fragile site. The EcoRI fragment also includes an HTF island that is hypermethylated in fragile-X patients showing absence of FMR-1 mRNA. In this paper, we present further evidence that the FMR-1 gene is involved in the clinical manifestation of the fragile-X syndrome and also in the expression of the cellular phenotype. A deletion including the HTF island and exons of the FMR-1 gene was detected in a fragile X-negative mentally retarded male who presented the clinical phenotype of the fragile-X syndrome. The deletion involves less than 250 kb of genomic DNA, including DXS548 and at least five exons of the FMR-1 gene. These data support the hypothesis that loss of function of the FMR-1 gene leads to the clinical phenotype of the fragile-X syndrome. In the fragile-X syndrome, there are pathogenetic mechanisms other than amplification of the CGG repeat that do have the same phenotypic consequences.     

Comparative analysis of multiple protein-sequence alignment methods [published erratum appears in Mol Biol Evol 1994 Sep;11(5):811]

We have analyzed a total of 12 different global and local multiple protein-sequence alignment methods. The purpose of this study is to evaluate each method's ability to correctly identify the ordered series of motifs found among all members of a given protein family. Four phylogenetically distributed sets of sequences from the hemoglobin, kinase, aspartic acid protease, and ribonuclease H protein families were used to test the methods. The performance of all 12 methods was affected by (1) the number of sequences in the test sets, (2) the degree of similarity among the sequences, and (3) the number of indels required to produce a multiple alignment. Global methods generally performed better than local methods in the detection of motif patterns.      

Über die Einwirkung Hypotonischer Medien auf das Zwischenhirn-Hypophysensystem von Mugil und Gobius

Zusammenfassung Bei den Teleostiern Mugil und Gobius wurden die Veränderungen des Zwischenhirn-Hypophysensystems in veränderten Außenmedien (hypotonisches Seewasser) histologisch untersucht.Beim langsamen Überführen aus Seewasser von 38,4 S in Seewasser von 25,4 und 20,8 S nahm das Sekret nicht, wie erwartet, zu. Im Nucleus praeopticus und im Hinterlappen der Hypophyse erfolgt eine starke Verringerung des Sekretbestandes (Mugil). Erst in Seewasser von weit niedrigerem Salzgehalt (6,3 und 1, 4) nimmt das Sekret im Hypophysenhinterlappen wieder zu (Gobius). Bei 6 S ist eine intensive Sekretableitung im N.p. und Tractus praeopticohypophyseus zu beobachten. Eine Deutung der Ergebnisse wird versucht, indem das weitgehend konstante Innenmedium mit den wechselnden Außenfaktoren in Beziehung gebracht wird.Die Befunde weisen darauf hin, daß das Zwischenhirn-Hypophysensystem auch bei Teleostiern an der Regulation des Wasserhaushaltes beteiligt ist.Der Deutschen Forschungsgemeinschaft danke ich für die Gewährung eines Stipendiums, das mir den Aufenthalt in Neapel ermöglichte. Mein besonderer Dank gilt auch den Herren Prof. Dr. Remane, Prof. Dr. Bargmann und Dozent Dr. Schiebler für ihre Unterstützung.