Regulation of the gene for estrogenic 17-ketosteroid reductase lying on chromosome 17cen----q25

17-Ketosteroid reductase (17KSR), also known as 17 beta-hydroxysteroid dehydrogenase, catalyzes the reversible interconversion of estradiol to estrone and of androstenedione to testosterone. Using a recently cloned human placental 17KSR cDNA, we show that the 1.4-kilobase mRNA for this enzyme is detected only in tissues producing estrogens, and a 2.4-kilobase mRNA is detected in some estrogenic tissues and some androgenic tissues. This tissue distribution suggests that the interconversion of androstenedione and testosterone may be mediated by a different enzyme. Southern blotting studies show that the mRNA for this estrogenic 17KSR is encoded by two very similar genes localized to chromosome 17cen----q25 by analysis of DNA from mouse/human somatic hybrid cell lines. 8-Br-cAMP increases the abundance of estrogenic 17KSR mRNA as well as mRNAs for other steroidogenic enzymes in JEG-3 choriocarcinoma cells. By contrast, cAMP decreases estrogenic 17KSR mRNA in primary cultures of human cytotrophoblasts and human granulosa cells, a pattern of tropic regulation that differs from other steroidogenic enzyme mRNAs.     

DNA topoisomerase inhibitors block erythropoiesis and delay hemoglobinization in vitro

To examine the importance of topological constraints on DNA during erythroid development, we measured the effects of camptothecin and teniposide, two tumoricidal agents which are also specific inhibitors of type I and type II topoisomerases respectively, on the formation of hematopoietic colonies by cultured human bone marrow cells. When added to bone marrow culture, each inhibitor alone impairs the formation of early BFU-E-derived colonies, late CFU-E-derived colonies and mixed hematopoietic (CFU-GEMM-derived) colonies by up to 100%. Inhibition of colony formation is directly related to the time of inhibitor addition and the inhibitor concentration tested. Although either inhibitor alone reduces colony formation by 90%, when added together at a submaximal concentration, camptothecin and teniposide exert a synergistic suppressive effect. Furthermore, addition of topoisomerase inhibitors to culture impairs hemoglobinization of colony erythroblasts in a time-dependent fashion. In contrast to the effects of topoisomerase inhibitors, the antiproliferative agent aphidicolin reduces erythroid colony number and size without altering hemoglobinization of colony erythroblasts. Since neither topoisomerase inhibitor alters the morphology of cultured cells, the capacity of cells to exclude trypan blue or the potential to form erythroid colonies through the interval required for the first progenitor cell division, it is unlikely that camptothecin or teniposide are cytotoxic to hematopoietic cells. Human mononuclear cells enriched in bone marrow lymphocytes and nucleated erythroblasts from both human and mouse sources release DNA into the detergent soluble fraction. Release requires functional topoisomerases and is altered by acute exposure to topoisomerase inhibitors. Our results suggest that topoisomerases are critical not only to proliferation but also to differentiation of human marrow erythroid progenitor cells and stem cells in culture.     

Extracellular processing of proapolipoprotein A-II in Hep G2 cell cultures is mediated by a 54-kDa protease immunologically related to cathepsin B

Apolipoprotein A-II is the second most abundant polypeptide found in human plasma high density lipoprotein particles. The primary translation product of human apo-A-II mRNA is a prepropolypeptide. We have previously reported (Gordon, J. I., Sims, H. F., Edelstein, C., Scanu, A. M., and Strauss, A. W. (1984) J. Biol. Chem. 259, 15556-15563) that the prosegment of apo-A-II was removed following export from a human hepatoma cell line (Hep G2). This represented a novel processing compartment for prosegments terminating with paired basic residues and differed from the processing of proalbumin which occurred with high efficiency prior to export from these cells. We have now characterized the enzyme responsible for this extracellular cleavage. The proapo-A-II converting activity is blocked by the thiol protease inhibitors antipain, E-64, leupeptin, and Ala-Lys-Arg chloromethyl ketone. Incubation of 125I-iodotyrosylated Ala-Lys-Arg chloromethyl ketone with serum-free media harvested from cell cultures over a 12-h period revealed a time-dependent accumulation of a 54-kDa protease. Although small quantities of the 54-kDa protease were detected in cell lysates, the major intracellular sequences labeled by the affinity probe had masses of 31.5 and 6 kDa. The 54-kDa extracellular, as well as 31.5- and 6-kDa intracellular, species were all immunoprecipitated by monospecific anti-human liver cathepsin B IgG. Addition of this antibody to media inhibited extracellular conversion of proapo-A-II to the mature protein. Based on these observations, we conclude that a "pro" cathepsin B-like protease exported by Hep G2 cells is responsible for proapo-A-II prosegment removal. It appears that cathepsin B-like proteases exhibit a complex pattern of segregation within the secretory pathway and that larger molecular weight forms of cathepsin B-like proteases are capable of accurately processing propolypeptides.     

Concerted DNA rearrangements in Moloney murine leukemia virus-induced thymomas: a potential synergistic relationship in oncogenesis.

Rat thymic lymphomas induced by Moloney murine leukemia virus carry DNA rearrangements due to provirus integration in at least five independent cellular DNA domains (Mlvi-1, Mlvi-2, Mlvi-3, RMoInt-1, and c-myc). We had previously shown that rearrangements in more than one of these domains could occur in the same tumor. In this report we extend these findings by showing that, with one exception, tumors containing provirus insertions in Mlvi-1 always contained provirus insertions in a second locus, Mlvi-2. To determine whether both events occurred in the same population of tumor cells, we examined the clonal nature of these tumors by taking advantage of allelic polymorphisms that occur naturally in both Mlvi-1 and Mlvi-2. Tumors with provirus insertions in both Mlvi-1 and Mlvi-2 arising in rats heterozygous at one of these loci were identified. DNA from these tumors was analyzed by restriction endonuclease digestion and hybridization to DNA probes derived from both Mlvi-1 and Mlvi-2. Thus, we determined the clonal nature of three thymomas and showed that in these tumors both insertion events occurred in the same population of tumor cells. The concomitant appearance of provirus insertions in Mlvi-1 and Mlvi-2 suggests a synergism of these two events that may be important in tumor induction and progression.     

The human villous cytotrophoblast: Interactions with extracellular matrix proteins, endocrine function, and cytoplasmic differentiation in the absence of syncytium formation

Human syncytiotrophoblasts are derived from villous cytotrophoblasts by cell fusion. Coincident with this morphologic transformation, trophoblasts acquire specific endocrine functions, including elaboration of chorionic gonadotropin (hCG). We wondered if syncytia formation was a prerequisite for biochemical differentiation or simply was one part of the differentiation program. By growing purified human cytotrophoblasts under serum-free conditions and manipulating the culture surface, we were able to disassociate morphologic from biochemical differentiation. We have shown previously (Endocrinology 1986, 118:1567) that human cytotrophoblasts grown in the presence of fetal calf serum flatten out, aggregate, and form functional syncytiotrophoblasts in vitro over 24-96 hr. Here we demonstrate that when grown in the absence of serum, the cells do not undergo these morphologic changes, but remain as individual spherical cells. If the culture surface was precoated with fibronectin or a variety of collagens, but not albumin, the cells regained their ability to flatten, aggregate, and form syncytia. Attachment to and syncytia formation on fibronectin was blocked by the addition of the R-G-D-S-containing peptide, Gly-Arg-Gly-Asp-Ser-Pro. Attachment to and syncytia formation on type I collagen was blocked by anti-human fibronectin F(ab')2 fragments, while association with type IV collagen was not affected by this antibody, suggesting that fibronectin mediates trophoblast association with type I collagen, but not type IV. Although syncytia formation did not occur when cytotrophoblasts were cultured under serum-free conditions in the absence of ECM proteins, biochemical differentiation was not affected. These cells secreted hCG at the same rate under serum-free conditions whether they were plated on plastic only--which prevented syncytia formation--or fibronectin, laminin or, type IV collagen--which allowed syncytia formation to occur. Furthermore, cytoplasmic differentiation in the absence of syncytia formation was confirmed by performing transmission electron microscopy on cytotrophoblasts grown under serum-free conditions in the presence of 8-bromo-cAMP. We conclude that syncytia formation is not a prerequisite for biochemical differentiation, but simply part of the trophoblast differentiation program.     

Dietary Fatty Acids Differentially Associate with Fasting Versus 2-Hour Glucose Homeostasis: Implications for The Management of Subtypes of Prediabetes

Over-nutrition has fuelled the global epidemic of type 2 diabetes, but the role of individual macronutrients to the diabetogenic process is not well delineated. We aimed to examine the impact of dietary fatty acid intake on fasting and 2-hour plasma glucose concentrations, as well as tissue-specific insulin action governing each. Normoglycemic controls (n = 15), athletes (n = 14), and obese (n = 23), as well as people with prediabetes (n = 10) and type 2 diabetes (n = 11), were queried about their habitual diet using a Food Frequency Questionnaire. All subjects were screened by an oral glucose tolerance test (OGTT) and studied using the hyperinsulinemic/euglycemic clamp with infusion of 6,6²H₂-glucose. Multiple regression was performed to examine relationships between dietary fat intake and 1) fasting plasma glucose, 2) % suppression of endogenous glucose production, 3) 2-hour post-OGTT plasma glucose, and 4) skeletal muscle insulin sensitivity (glucose rate of disappearance (Rd) and non-oxidative glucose disposal (NOGD)). The %kcal from saturated fat (SFA) was positively associated with fasting (β = 0.303, P = 0.018) and 2-hour plasma glucose (β = 0.415, P<0.001), and negatively related to % suppression of hepatic glucose production (β = -0.245, P = 0.049), clamp Rd (β = -0.256, P = 0.001) and NOGD (β = -0.257, P = 0.001). The %kcal from trans fat was also negatively related to clamp Rd (β = -0.209, P = 0.008) and NOGD (β = -0.210, P = 0.008). In contrast, the %kcal from polyunsaturated fat (PUFA) was negatively associated with 2-hour glucose levels (β = -0.383, P = 0.001), and positively related to Rd (β = 0.253, P = 0.007) and NOGD (β = 0.246, P = 0.008). Dietary advice to prevent diabetes should consider the underlying pathophysiology of the prediabetic state.     

Persistence of orientation toward a temporarily invisible landmark in Drosophila melanogaster

In arena experiments with the walking fruit fly, we found a remarkable persistence of orientation toward a landmark that disappeared during the fly's approach. The directional stability achieved by `after-fixation' allows a fly to continue pursuit under natural conditions, where a selected target is frequently concealed by surrounding structures. The persistence of after-fixation was investigated in Buridan's paradigm, where a fly walks persistently back and forth between two inaccessible landmarks. Upon disappearance of a selected target, the flies maintained their intended course for more than 15 body lengths of approximately 2.5 mm in about 50% of the trials. About 13% even exceeded 75 body lengths. About 88% of the approaches clustered in equal portions around peaks at 2.4 s and 8.6 s. About 12% of the approaches persisted even longer. In contrast, a single peak at about 2.2 s is sufficient to describe the persistence of orientation in a random walk. The ability to pursue an invisible landmark is disturbed neither by a transient angular deviation from the course toward this landmark, when this target disappeared, nor by a distracting second landmark. Accordingly, after-fixation seems to require an internal representation of the direction toward the concealed target, and idiothetical course control to maintain this direction. Accepted: 19 September 1997     

Molecular Genetic Study of the Interaction of Sindbis Virus E2 with Ross River Virus E1 for Virus Budding

Glycoprotein PE2 of Sindbis virus will form a heterodimer with glycoprotein E1 of Ross River virus that is cleaved to an E2/E1 heterodimer and transported to the cell plasma membrane, but this chimeric heterodimer fails to interact with Sindbis virus nucleocapsids, and very little budding to produce mature virus occurs upon infection with chimeric viruses. We have isolated in both Sindbis virus E2 and in Ross River virus E1 a series of suppressing mutations that adapt these two proteins to one another and allow increased levels of chimeric virus production. Two adaptive E1 changes in an ectodomain immediately adjacent to the membrane anchor and five adaptive E2 changes in a 12-residue ectodomain centered on Asp-242 have been identified. One change in Ross River virus E1 (Gln-411→Leu) and one change in Sindbis virus E2 (Asp-248→Tyr) were investigated in detail. Each change individually leads to about a 10-fold increase in virus production, and combined the two changes lead to a 100-fold increase in virus. During passage of a chimeric virus containing Ross River virus E1 and Sindbis virus E2, the E2 change was first selected, followed by the E1 change. Heterodimers containing these two adaptive mutations have a demonstrably increased degree of interaction with Sindbis virus nucleocapsids. In the parental chimera, no interaction between heterodimers and capsids was visible at the plasma membrane in electron microscopic studies, whereas alignment of nucleocapsids along the plasma membrane, indicating interaction of heterodimers with nucleocapsids, was readily seen in the adapted chimera. The significance of these findings in light of our current understanding of alphavirus budding is discussed.     

In vivo immobilization of enzymatically active polypeptides on the cell surface of Staphylococcus carnosus

Many surface proteins of Gram-positive bacteria are covalently anchored to the cell wall by a ubiquitous mechanism, involving a specific, C-terminal sorting signal. To achieve cell-wall immobilization of a normally secreted enzyme in vivo, we constructed a hybrid protein consisting of Staphylococcus hyicus lipase and the C-terminal region of Staphylococcus aureus fibronectin binding protein B (FnBPB). This region comprised the authentic cell-wall-spanning region and cell-wall sorting signal of FnBPB. Expression of the hybrid protein in Staphylococcus carnosus resulted in efficient cell-wall anchoring of enzymatically active lipase. The cell-wall-immobilized lipase (approximately 10000 molecules per cell) retained more than 80% of the specific activity, compared to the C-terminally unmodified S. hyicus lipase secreted by S. carnosus cells. After releasing the hybrid protein from the cell wall by lysostaphin treatment, its specific activity was indistinguishable from that of the unmodified lipase. Thus, the C-terminal region of FnBPB per se was fully compatible with folding of the lipase to an active conformation. To study the influence of the distance between the cell-wall sorting signal and the C-terminus of the lipase on the activity of the immobilized lipase, the length of this spacer region was varied. Reduction of the spacer length gradually reduced the activity of the surface-immobilized lipase. On the other hand, elongation of this spacer did not stimulate the activity of the immobilized lipase, indicating that the spacer must exceed a critical length of approx. 90 amino acids to allow efficient folding of the enzyme, which probably can only be achieved outside the pep-tidoglycan web of the cell wall. When the lipase was replaced by another enzyme, the Escherichia coliβ-lactamase, the resulting hybrid was also efficiently anchored in an active conformation to the cell wall of S, carnosus. These results demonstrate that it is possible to immobilize normally soluble enzymes on the cell wall of S. carnosus - without radically altering their catalytic activity - by fusing them to a cell-wall-immobilization unit, consisting of a suitable cellwall-spanning region and a standard cell-wall sorting signal.