Baboon Cells Research Articles

Stimulation of Gonadotropin Release by a Non-GnRH Peptide Sequence of the GnRH Precursor

The human gonadotropin-releasing hormone (GnRH) precursor comprises the GnRH sequence followed by an extension of 59 amino acids. Basic amino acid residues in the carboxyl terminal extension may represent sites of processing to biologically active peptides. A synthetic peptide comprising the first 13 amino acids (H X Asp-Ala-Glu-Asn-Leu-Ile-Asp-Ser-Phe-Gln-Glu-Ile-Val X OH) of the 59-amino acid peptide was found to stimulate the release of gonadotropic hormones from human and baboon anterior pituitary cells in culture. The peptide did not affect thyrotropin or prolactin secretion. A GnRH antagonist did not inhibit gonadotropin stimulation by the peptide, and the peptide did not compete with GnRH for GnRH pituitary receptors, indicating that the action of the peptide is independent of the GnRH receptor. The GnRH precursor contains two distinct peptide sequences capable of stimulating gonadotropin release from human and baboon pituitary cells.

Effects of human recombinant CSF-GM and highly purified CSF-1 on the formation of multinucleated cells with osteoclast characteristics in long-term bone marrow cultures.

Several studies have suggested that the osteoclast is derived from a mononuclear precursor which is found in bone marrow. We have developed a system for studying the formation of osteoclast-like multinucleated cells in long-term bone marrow culture of baboon cells. Recombinant human CSF-GM and highly purified CSF-1, both of which stimulate the proliferation of monocyte/macrophage precursors, were found to increase the number of osteoclast-like cells formed in long-term bone marrow culture. CSF-GM stimulated multinucleated cell formation more consistently than CSF-1. The subsequent addition of 1,25-dihydroxyvitamin D3 (1,25-(OH)2D3) to cultures initially treated with CSF-GM or CSF-1 further increased multinucleated cell formation. Autoradiographic studies indicate that CSF stimulated multinucleated cell formation by increasing the proliferation of the precursor cell, and that the potentiating effect of 1,25-(OH)2D3 was caused by fusion of the increased numbers of precursors. These studies suggest that the interaction of locally produced colony-stimulating factors with circulating calcium regulating hormones may be important in the control of osteoclast formation and bone resorption.

Autoradiographic demonstration of estrogen receptors in the esophagus of baboons

Previous reports have indicated that certain sex steroids are intimately involved in the physiologic activities of the gastrointestinal tract. We performed autoradiographic studies using [3H]estradiol and [3H]dihydrotestosterone on male and female baboons for the purpose of identifying estrogen or androgen receptors, or both, in the lower and midregions of the esophagus. Discrete sites of localization of exposed photographic emulsion were observed over nuclei of skeletal muscle and interstitial cells of male baboons injected with the estrogen. No localization of receptors was observed in these same cells in females given estrogen nor in any males and females injected with the androgen. These observations suggest that skeletal muscle and interstitial cells of the male baboon contain specific highaffinity estrogen receptors that might have a direct effect on the skeletal muscle cells and may modulate their cellular activities.

Cytotoxicity of mononuclear cells and vulnerability of hepatocytes in alcoholic fatty liver of baboons.

Mononuclear cell cytotoxicity against autologous, allogeneic and xenogeneic (rabbit) hepatocytes was investigated in nine baboons fed alcohol for 17-21 months and in nine pair-fed controls. All alcohol-fed animals developed fatty liver. Cytotoxicity of mononuclear cells was not observed when rabbit hepatocytes were used as target cells, but mononuclear cells of alcohol-fed baboons were cytotoxic against hepatocytes of both control animals and hepatocytes from alcohol-fed baboons, including the animals' own hepatocytes. Increased vulnerability of hepatocytes of alcohol-fed baboons was also demonstrated since mononuclear cells of both controls and alcohol-fed animals were more cytotoxic against hepatocytes of alcohol-fed baboons than against those of controls. Thus, autologous and heterologous hepatocytes are more sensitive in the baboon than rabbit hepatocytes in demonstrating cytotoxicity already at the stage of fatty liver. Two factors are contributory: mononuclear cells cytotoxicity and vulnerability of hepatocytes.

Baboon endogenous virus genome: molecular cloning and structural characterization of nondefective viral genomes from DNA of a baboon cell strain.

Several heterogeneities in the baboon endogenous virus (BaEV) genomes that are present in the DNA of normal baboon tissues and the baboon cell strain BEF-3 have been described previously. To study these genomes, we cloned BaEV proviruses from BEF-3 cellular DNA into the lambda vector Charon 4A. Of the four full-length clones isolated, one was nondefective as determined by transfection. The sequence of a portion of this clone was found to code for amino acids 61-91 in the p30 region of the gag gene. This identification allowed us to align the restriction map with the BaEV genetic map. One heterogeneity, a BamHI site 2.4 kilobases (kb) from the proviral 5' end, was located close to the gag-pol junction; another, a BamHI site 1.4 kb from the 5' end of the genome, corresponded to the gag p30 coding sequence for amino acids 32-34; and a third, a Xho I site, was near the 3' end of the pol gene. To select the nondefective BaEV genomes from BEF-3 cells, we infected permissive cells with virus produced by BEF-3 cells and also transfected BEF-3 cellular DNA into permissive cells. The BaEV genomes in the permissive recipient cultures were then analyzed by restriction enzyme analysis. These nondefective genomes were found to be heterogeneous with respect to the gag-pol BamHI site and the Xho I site, but all were found to contain the BamHI site 1.4 kb from the 5' end of the genome.

Endogenous type C viral gene expression in cultures of fetal diploid baboon cells treated with 5′-bromodeoxyuridine 1,2

Cultures of fetal diploid baboon fibroblasts treated with 5-bromodeoxyuridine synthesized protein antigenically related to baboon endogenous type C viral gag gene product, p28. Cellular immunofluorescence studies revealed induction of viral p28 in greater than 10% of treated cells in two baboon cell lines. Radioimmunoassays detected p28 antigenic specificities indistinguishable from those of purified virus [M7 strain of baboon endogenous virus (BEV)]. However, viral RNA-dependent DNA polymerase was not detected in culture fluids, and infectious virus was rarely recovered by cocultivation with susceptible heterologous cells. Extracellular particles containing p28 were not readily detected, further indicating that viral gag gene-coded proteins were synthesized independently of whole virus. Normal cultures of the same baboon cells exhibited endogenous expression of a glycoprotein antigenically related to BEV gp70, suggesting differential regulation of the endogenous gag and env gene-coded products. Baboon cell cultures exogenously infected with BEV produced extracellular particles having viral p28 and gp70 as measured by radioimmunoassays of culture fluids. Virus-infected cultures expressed about 0.01% of total lysate protein as p28, whereas bromodeoxyuridine-treated cultures expressed about 0.001% of their protein as p28. Since induced cultures have about 10% positive cells versus close to 100% for infected cultures, the amount of p28 per producing cell was about the same in both cell populations.

Comparative studies of herpesvirus papio (baboon herpesvirus) DNA and Epstein-Barr virus DNA.

An Epstein-Barr virus (EBV)-like herpesvirus has been isolated from a baboon cell line (594S/F9) by induction with the tumour promoter 12-O-tetradecanoyl-phorbol-13-acetate (TPA). The herpesvirus papio (HVP) DNA was mixed with B95 EBV DNA and was characterized by sedimentation in neutral glycerol gradient as 55S DNA, with a buoyant density of approx. 1.718 g/ml after equilibrium centrifugation in caesium chloride. DNA-DNA reassociation kinetics between B95 EBV and HVP DNA showed that HVP DNA shares about 40% homology with B95 EBV DNA. Blot hybridization of EcoRI fragments of HVP DNA with a 32P-B95 EBV DNA probe showed that most of the EcoRI fragments of HVP DNA were hybridized to B95 EBV DNA, suggesting that the homologous sequences were dispersed throughout the virus DNA.

Polyploidy in mammalian urothelial cells.

The mitotic indices and the extent of polyploidy in urothelial cells of baboons, dogs and swine were studied. All three species had very low mitotic activity in vivo but short-term culturing of these cells in vitro stimulated mitosis thus enabling chromosome counts. Tetraploid cells were found in the urothelium of all three species, and higher ploidies also in dog and swine. There were substantial differences in the proportions of diploidy and higher ploidies among the three species and among individuals within each species. Dog urothelial cells were predominantly tetraploid (70%) while more swine cells were diploid (68%). Baboon urothelial cells had only two ploidy classes and 92% were diploid.

The baboon endogenous virus genome. II. Provirus sequence variations in baboon cell DNA.

Restriction analysis of the approximately 100 integrated baboon endogenous virus (BaEV) proviruses in baboon cells and tissues has revealed two major sequence variations, both in the gag gene region of the genome. One, a 150 nucleotide pair insert, is present in a small proportion of the proviral DNAs and some baboons, but is present in the majority of the proviral DNAs of other baboons. The second, a Bam HI recognition sequence located 2.25 kb from the proviral 5' end, is missing or modified in approximately one-half of the integrated genomes. We consider the possibility that accumulation of proviruses not containing the 0.15 kb insert is correlated with viral activation and expression since it is this form that is a replication intermediate in freshly infected permissive cells. It is evident from these initial studies that the organization of the multiple BaEV proviruses in baboon DNA has undergone modification during evolution.

Sites of sequence variability in Epstein-Barr virus DNA from different sources.

The intracellular Epstein-Barr virus (EBV) DNA present in virus-transformed cells was partly purified from 23 cell lines or biopsies of Burkitt lymphoma, nasopharyngeal carcinoma, infectious mononucleosis, or healthy carrier origin. Such DNA was cleaved in fragments (A-K) of molecular weights between 1 x 10(6) and 30 x 10(6) with restriction enzyme EcoRI, and these fragments were analyzed by standard methods involving agarose gel electrophoresis, transfer to nitrocellulose filters, and hybridization with radioactive EBV DNA or complementary RNA. Sequence variability among different EBV DNA isolates was largely confined to the A, C, and I fragments. These results are discussed in relation to the linkage map of the EcoRI fragments of EBV DNA. The EcoRI cleavage pattern of intracellular viral DNA of an EBV-like virus from baboon cells, Herpesvirus papio, was entirely different from that of human EBV isolates.

Expression of baboon endogenous virus in exogenously infected baboon cells.

Strains of low-passage, fetal diploid, baboon (Papio cynocephalus) fibroblasts were susceptible to exogenous infection with three independent isolates of baboon endogenous virus, as measured by an immunofluorescence assay specific for viral p28. Infectivity of the M7 strain of baboon endogenous virus for baboon cells of fetal skin muscle origin was equivalent to that for human and dog cells in that similar, linear, single-hit titration patterns were obtained. The assay for supernatant RNA-dependent DNA polymerase, however, showed that baboon cells produced only low levels of virus after infection compared with the production by heterologous cells. The results showed that baboon endogenous virus was capable of penetrating baboon cells and that viral genes were expressed in infected cells. Replication of complete infectious virus was restricted, however, indicating that in this primate system homologous cells differentially regulated the expression of viral genes.

Antigens of human trophoblast. Effects of heterologous anti-trophoblast sera on lymphocyte responses in vitro.

This report describes the inhibition of human mixed lymphocyte culture (MLC) reactions by rabbit antisera to intact and detergent solubilized, fractionated, human trophoblast membranes. Heat-inactivated antisera were passed through solid-phase immunoabsorption columns of normal human serum and extensively absorbed with human erythrocytes, lymphocytes and liver powder. Immunohistological experiments with these absorbed antisera showed that they reacted brilliantly with syncytiotrophoblast in cryostat sections of human but not baboon or monkey placentae, and not with other normal adult tissues including peripheral blood lymphocytes (PBL). Addition of these antisera to MLC reactions produced significant and reproducible suppression of responses without affecting cell viability. Absorption studies demonstrated complete removal of MLC inhibition and trophoblast membranes but not with PBL or suspensions of HEp-2 cells. Timed experiments showed that optimal inhibition occurred when the antisera were added between 2 and 6 h after culture initiation, and that little suppression was achieved after 18 h. Lymphocytes harvested from MLC reactions after 2 h showed that 3--5% of the cells reacted with PBL/liver-absorbed anti-trophoblast sera, and that unstimulated PBL were negative. Cultures of subhuman primate lymphocytes in the presence of heterologous antisera to human trophoblast membranes showed total inhibition of rhesus:human and human:rhesus MLC, and no suppression of baboon:human or human:baboon reactions, whereas human lymphocytes responded in an exagerated manner when stimulated by baboon cells. Modulated MLC responses to human, rhesus, or baboon lymphocytes, in the presence of anti-trophoblast sera indicate that the antisera recognize trophoblast cross-reactive lymphocytes antigens. We propose that these antigens are reaction products of cell-cell interactions, and that the nature of the antigens is determined by the specificity of the recognition signals which initiate the reaction.

Endogenous mink (Mustela vison) type C virus isolated from sarcoma virus-transformed mink cells.

A previously described type virus stock (designated PP-1R), isolated by cocultivating baboon cells with mink cells transformed by Kirsten sarcoma virus (64J1), has been further cloned and characterized. End point-diluted stocks of PP-1R have been obtained that are free of focus-forming activity and lack both Kirsten sarcoma and primate type C viral sequences. Nucleic acid hybridization experiments show that the cloned virus (MiLV) is an endogenous, genetically transmitted virus of the mink (Mustela vison). MiLV replicates in canine, feline, and 64J1 mink cells but not in an untransformed mink cell line. Multiple viral gene copies can be detected in the DNA of normal mink cells in culture and in normal mink tissues; related endogenous viral genes are also detected in several related Mustela species. The virus codes for a p30 protein very closely related antigenically to that of feline leukemia virus but contains p15 and p12 proteins that are antigenically distinct. The mink cell line, Mv1Lu, and its Kirsten sarcoma-transformed derivatives, 64J1, express relatively low levels of type C viral RNA related to MiLV and normally do not produce detectable levels of MiLV p30 protein or complete, infectious viral particles. Infection of sarcoma virus-transformed mink cells with baboon type C virus, however, can augment the level of expression of endogenous mink viral RNA and can result in the synthesis and packaging of mink viral RNA and p30 antigen in extracellular virions. Since the Mv1Lu cell line and its tranformed derivatives have become widely used in studies of retroviruses, the possibility of activating endogenous mink viral genes should be considered by investigators working with these cells.

Antigen-Inducing Ability of Herpesvirus Papio in Human and Baboon Lymphoma Lines, Compared to Epstein-Barr Virus

Herpesvirus papio(HVP)-carrying baboon lymphoblastoid lines do not express a nuclear antigen like the Epstein-Barr virus(EBV)-determined nuclear antigen (EBNA), as judged by in situ anticomplement fluorescence staining, although the carry multiple viral genomes and, in the case of producerlines, early antigen (EA) and viral capsid antigen (VCA) that cross-react with the corresponding human EBV-determined antigens. To test whether the lack of in situ nuclear antigen expression is a property innate to the baboon virus or the baboon cell, nonproducer HVP-carrying baboon lymphoid cells of the 26 CB-1 line were superinfected with two human EBV strains. B95-8-derived EBV induced brilliant EBNA staining, proving that the baboon lymphoid cell was competent to synthesize EBNA. In the mirror experiment, HVP derived from the 9B or the 18C baboon line was added to the EBV-carrying Raji line, the EBV-negative Ramos and BJAB lines and the HVP-carrying nonproducer 26 CB-1 line, respectively. HVP induced EA and VCA in Raji, and EA in BJAB and 26 CB-1. EBNA was not induced in any of the three EBNA-negative lines, BJAB, Ramos and 26 CB-1. It is concluded that the lack of in situ nuclear staining in HVP-carrying baboon lines is a HVP-associated property and is not due to any innate inability of the baboon lymphoid cell to synthesize an antigen of the EBNA type.

Die extrakorporale Perfusion mit Pavianlebern zur Behandlung des Leberzerfallskomas

In 11 patients with hepatic coma (stage IV and V according to Abouna) extracorporeal haemoperfusion using the Scribner shunt (radial or profunda femoris artery) was performed over 12 to 27 hours with 22 baboon and one human livers. Eight patients emerged from coma, six of them showed sufficient regeneration of the diseased liver. Four patients were discharged as cured, one patient died of acute pancreatic necrosis, a further one due to bleeding from an old gastric ulcer. In the 2 remaining patients the coma recurred within 48 hours. Tree patients never came round from coma. After perfusion no antibodies against baboon proteins were demonstrable in the patients. Thus there is very little danger of an anaphylactic reaction when perfusion is repeated. The titre of preformed cytotoxic antibodies against baboon cells in patients' serum rises only after 1-2 weeks and decreases again after 4 weeks. In our experience extracorporeal liver perfusion with baboon or human livers is the most promising method for treatment of hepatic coma.

Transformation of lymphocytes by herpesvirus papio

Cotton-topped (CT) or white-lipped (WL) marmoset lymphocytes were transformed in vitro with herpesvirus papio (HVP) into permanently growing lymphoblastoid cell lines (LCL). Five of 9 HVP-transformed CT cell lines contained cells with antigens reacting with antibodies to Epstein-Barr virus (EBV) capsid antigen (VCA) and/or to EBV-induced early antigens (EA). None of 12 WL LCL revealed such antigen-producing cells. Cells from both groups of cultures failed to react with antibodies to the EBV-specified nuclear antigen (EBNA). Exposure of baboon circulating lymphocytes to X-irradiated HVP or EBV-carring cells, or to suspensions of EBV resulted in establishment of LCL which all contained VCA and/or EA-positive, but no EBNA-positive cells. Nuclear antigens were undetectable also with anti-VCA-positive sera from baboons, chimpanzees, or other non-human primates. DNA-complementary RNA (cRNA) filter hybridization with EBV cRNA showed that with one exception transformed CT or WL marmoset cells contained at least 1-2 virus genome equivalents per cell, while at least 12-25 virus genome equivalents per cell were detected in transformed baboon cells. These data need confirmation by DNA-DNA reassociation kinetics.

Physiologic effects of normal-or low-oxygen-affinity red cells in hypoxic baboons.

Baboons were bled one-third their red cell mass and were given homologous transfusions of red blood cells to restore the red cell volume. One group of baboons received red blood cells with a normal 2,3-diphosphoglycerate 2,3-DPG) level and normal affinity for oxygen, and in this group the 2,3-DPG level after transfusion was normal. The other group received red blood cells with a 160% of normal 2,3-DPG level and decreased affinity for oxygen, and in this group the 2,3-DPG level after transfusion was 125% of normal. In both groups of baboons, the inspired oxygen concentration was lowered and arterial PO2 tension was maintained at 55-60 mmHg for 2 h after transfusion. During the hypoxic state, systemic oxygen extraction was similar in the two groups, whereas oxygen saturation was lower in the high 2,3-DPG group than in the control animals. Cardiac output was significantly reduced 30 min after the arterial PO2 was restored to normal. These data indicate that red blood cells with decreased affinity for oxygen maintained satisfactory oxygen delivery to tissue during hypoxia.

Properties of a baboon lymphotropic herpesvirus related to Epstein‐Barr virus

Three lymphoblastoid cell lines were established from splenic lymphocytes of a lymphomatous baboon (Papio hamadryas) by co-cultivation of the lymphocytes with X-irradiated cells of marmoset or baboon lymphoblastoid cell cultures; the baboon splenic lymphocytes failed to grow when cultured alone. A herpesvirus, associated with each cell line, was identified by immunofluorescence, molecular hybridization and electron microscopy. Antigenic comparison with Epstein-Barr virus (EBV) showed that the baboon herpesvirus and EBV shared cross-reacting viral capsid antigens (VCA): 20 of 20 (100%) anti-VCA (EBV)-positive human sera and 55 of 62 (89%) baboon sera reacted with the baboon lymphoblastoid cells and baboon sera stained EBV VCA in P3HR-1 and EB-3 cells. No nuclear antigen, as assayed by anti-complement immunofluorescence tests, was detected in baboon lymphoblastoid cells when human or baboon anti-VCA positive sera were used. Baboon anti-VCA-positive sera also failed to stain EBV nuclear antigens (EBNA) in Raji or P3HR-1 cells. Preliminary molecular hybridization studies showed only approximately 40% homology between viral DNA of baboon cell lines and DNA of EBV derived from P3HR-1 cells.

Hemagglutination inhibition studies for the evaluation of blood group antigens in ethanol soluble substances (ESS) obtained from human, baboon and vervet monkey red blood cells.

Soluble blood group substances, isolated from the red blood cells of humans, baboons, and vervet monkeys by ethanol extraction, possessed serologically active specificities for the following antigens: A, B, H, Lea, LebL, P, P19 Pk and I. Human red blood cells lacking any of these specificities by the direct hemagglutination test also lacked the related antigens in their soluble extract. The only exception was in "Bombay" Oh cells, from which soluble H substance could be readily isolated. Soluble substances obtained from baboon and vervet monkey red blood cells, which lack the human variety of A, B, and H antigens on their red blood cells, inhibited both human and lectin anti-H reagents. The detection of "hidden" H activity in Oh cells will pose some important questions regarding membrane characteristics and the role of immune surveilance.

Isolation of a primate type-C virus from a lymphomatous baboon.

A type-C RNA virus has been isolated from various tissues of a lymphomatous baboon (sp. P hamadryas). Virus isolations were made by co-cultivating baboon cells from the inguinal and mesenteric lymph nodes, testes, kidneys and spleen with cells of canine or human origin. The isolated virus grew in canine, bat, rhesus, and human cells but not in cells of mouse, rat, cat or rabbit origin. The baboon isolate resemble a type-C virus when infected cells were examined by thin section in the electron microscope. In addition, the virus was capable of providing helper function by rescuing and transmitting the Moloney and Kirsten sarcoma virus genome from non-productively transformed cells. Antibody directed against the RD114 virus reverse transcriptase was very effective in inhibiting the baboon virus polymerase while while anti-mouse and woolly type-C virus polymerase antibodies had no significant inhibitory activity. Further analysis by immunodiffusion and competitive radioimmune assay revealed a close immunological relationship between this virus, RD114 and another type-C virus isolated from the placenta of a different species of baboon. Finally, three different classes of interspecies antigenic determinants have been demonstrated in mammalian type-C virus isolated from the placenta of a different species of baboon. Finally, three different classes of interspecies antigenic determinants have been demonstrated in mammalian type-C viruses.