Concerted evolution of the tandem array encoding primate U2 snRNA (the RNU2 locus) is accompanied by dramatic remodeling of the junctions with flanking chromosomal sequences.
(17/2159)
The genes encoding primate U2 snRNA are organized as a nearly perfect tandem array (the RNU2 locus) that has been evolving concertedly for >35 Myr since the divergence of baboons and humans. Thus the repeat units of the tandem array are essentially identical within each species, but differ between species. Homogeneity is maintained because any change in one repeat unit is purged from the array or fixed in all other repeats. Intriguingly, the cytological location of RNU2 has remained unchanged despite concerted evolution of the tandem array. We had found previously that junction sequences between the U2 tandem array and flanking DNA were subject to remodeling over a region of 200-300 bp during the past 5 Myr in the hominid lineage. Here we show that the junctions between the U2 tandem array and flanking DNA have undergone dramatic rearrangements over a region of 1 to >10 kbp in the 35 Myr since divergence of the Old World Monkey and hominid lineages. We argue that these rearrangements reflect the high level of genetic activity required to sustain concerted evolution, and propose a model to explain why maintenance of homogeneity within a tandemly repeated multigene family would lead to junctional diversity. (+info)
Fibrinogen receptor antagonist-induced thrombocytopenia in chimpanzee and rhesus monkey associated with preexisting drug-dependent antibodies to platelet glycoprotein IIb/IIIa.
(18/2159)
Most clinical trials with fibrinogen receptor antagonists (FRAs) have been associated with thrombocytopenia. This report describes the occurrence of thrombocytopenia in one chimpanzee and one rhesus monkey upon administration of potent FRAs. Chimpanzee A-264 experienced profound thrombocytopenia on two occasions immediately upon intravenous administration of two different potent FRAs, L-738, 167 and L-739,758. However, an equally efficacious antiaggregatory dose of another potent antagonist, L-734,217, caused no change in platelet count. These compounds did not affect platelet count in five other chimpanzees or numerous other nonhuman primates. Flow cytometric analysis showed drug-dependent antibodies (DDAbs) in the plasma of chimpanzee A-264 that bound to platelets of chimpanzees, humans, and all other primates tested only in the presence of the compounds that induced thrombocytopenia. Rhesus monkey 94-R021 experienced thrombocytopenia upon administration of a different antagonist, L-767,679, and several prodrugs that are converted into the active form, L-767,679, in the blood. More than 20 other FRAs, including those that induced thrombocytopenia in chimpanzee A-264, had no effect on platelet count in this monkey. Flow cytometric measurements again identified DDAbs that reacted with platelets of all primates tested and required the presence of L-767,679. Screening for DDAbs in the plasma of 1,032 human subjects with L-738, 167 and L-739,758 demonstrated that the incidence of these preexisting antibodies in this population was 0.8% +/- 0.6% and 1.1% +/- 0.6%, respectively. (+info)
The resistance of retroviral vectors produced from human cells to serum inactivation in vivo and in vitro is primate species dependent.
(19/2159)
The ability to deliver genes as therapeutics requires an understanding of the vector pharmacokinetics similar to that required for conventional drugs. A first question is the half-life of the vector in the bloodstream. Retroviral vectors produced in certain human cell lines differ from vectors produced in nonhuman cell lines in being substantially resistant to inactivation in vitro by human serum complement (F. L. Cosset, Y. Takeuchi, J. L. Battini, R. A. Weiss, and M. K. Collins, J. Virol. 69:7430-7436, 1995). Thus, use of human packaging cell lines (PCL) may produce vectors with longer half-lives, resulting in more-efficacious in vivo gene therapy. However, survival of human PCL-produced vectors in vivo following systemic administration has not been explored. In this investigation, the half-lives of retroviral vectors packaged by either canine D17 or human HT1080 PCL were measured in the bloodstreams of macaques and chimpanzees. Human PCL-produced vectors exhibited significantly higher concentrations of circulating biologically active vector at the earliest time points measured (>1, 000-fold in chimpanzees), as well as substantially extended half-lives, compared to canine PCL-produced vectors. In addition, the circulation half-life of human PCL-produced vector was longer in chimpanzees than in macaques. This was consistent with in vitro findings which demonstrated that primate serum inactivation of vector produced from human PCL increased with increasing phylogenetic distance from humans. These results establish that in vivo retroviral vector half-life correlates with in vitro resistance to complement. Furthermore, these findings should influence the choice of animal models used to evaluate retroviral-vector-based therapies. (+info)
Virus-specific cytotoxic T lymphocytes in human immunodeficiency virus type 1-infected chimpanzees.
(20/2159)
Chimpanzees have been important in studies of human immunodeficiency virus type 1 (HIV-1) pathogenesis and in evaluation of HIV-1 candidate vaccines. However, little information is available about HIV-1-specific cytotoxic T lymphocytes (CTL) in these animals. In the present study, in vitro stimulation of peripheral blood mononuclear cells (PBMC) from infected chimpanzees with HIV-1 Gag peptides was shown to be a sensitive, reproducible method of expanding HIV-1-specific CD8(+) effector CTL. Of interest, PBMC from two chimpanzees had CTL activity against Gag epitopes also recognized by major histocompatibility complex class I-restricted CTL from HIV-1-infected humans. The use of peptide stimulation will help to clarify the role of CTL in vaccine-mediated protection and HIV-1 disease progression in this important animal model. (+info)
Attenuation of the recombinant human parainfluenza virus type 3 cp45 candidate vaccine virus is augmented by importation of the respiratory syncytial virus cpts530 L polymerase mutation.
(21/2159)
A phenylalanine to leucine mutation at position 521 in the L polymerase of cpts530, a live-attenuated respiratory syncytial virus (RSV) cold-passaged (cp), temperature-sensitive (ts) candidate vaccine, specifies the ts and attenuation (att) phenotypes. Sequence alignment of this region in the L proteins of several distantly related paramyxoviruses revealed that this phenylalanine is conserved. Using reverse genetics, the analogous phenylalanine at position 456 in the L protein of wild-type PIV3 was mutagenized to leucine (F456L). The resulting virus, designated r456(L), was ts (40 degrees C shut-off temperature of plaque formation), and its replication in the upper, but not the lower, respiratory tract of hamsters was 10-fold reduced compared with that of the recombinant wild-type PIV3 (rwt). Thus the phenylalanine to leucine mutation specified a similar level of temperature sensitivity and attenuation in two distantly related paramyxoviruses. We next sought to determine whether the addition of this mutation to the L protein of two rPIV3 candidate vaccine viruses, one bearing the three cp45 ts missense mutations in the L protein (rcp45(L)) and the other bearing all 15 cp45 mutations (rcp45), would further attenuate the viruses in vivo. Each rcp45 derivative to which the F456L mutation was added exhibited an increased level of temperature sensitivity. Furthermore rcp45(L)-456 and rcp45-456 were 100- to 1000-fold more restricted in replication in hamsters than their rcp45(L) and rcp45 parents. Despite the high level of restriction of replication in hamsters, immunization with rcp45-456 induced a moderate level of resistance to replication of PIV3 challenge virus. In contrast to the highly restricted replication observed in hamsters, rcp45-456 was only fivefold more restricted in the respiratory tract of chimpanzees than rcp45 and induced a comparable, moderate to high level of PIV3-specific serum antibodies. rcp45 and rcp45-456 viruses isolated from chimpanzees throughout the 2-week course of replication maintained the level of temperature sensitivity of their respective input viruses, illustrating their phenotypic stability. Thus the acquisition of the F456L mutation by the cp45 virus resulted in a small, incremental increase in its level of attenuation, indicating its possible usefulness in the fine tuning of the level of attenuation of the cp45 vaccine candidate. The ability to transfer mutations identified in heterologous paramyxoviruses, which in this case represent different subfamilies, greatly enhances our ability to rapidly develop novel parainfluenza virus candidate vaccines. (+info)
Antigenic epitopes of the hepatitis A virus polyprotein.
(22/2159)
Forty-two antigenic domains were identified across the hepatitis A virus (HAV) polyprotein by using a set of 237 overlapping 20-mer synthetic peptides spanning the entire HAV polyprotein and a panel of serum samples from acutely HAV-infected patients. The term "antigenic domain" is used in this study to define a protein region spanned with consecutive overlapping immunoreactive peptides. Nineteen antigenic domains were found within the structural proteins, and 22 were found within the nonstructural proteins, with 1 domain spanning the junction of VP1 and P2A proteins. Five of these domains were considered immunodominant, as judged by both the breadth and the strength of their immunoreactivity. One domain is located within the VP2 protein at position 57-90 aa. A second domain, located at position 767-842 aa, contains the C-terminal part of the VP1 protein and the entire P2A protein. A third domain, located at position 1403-1456 aa, comprises the C-terminal part of the P2C protein and the N-terminal half of the P3A protein. The fourth domain, located at position 1500-1519 aa, includes almost the entire P3B, and the last domain, located at position 1719-1764 aa, contains the C-terminal region of the P3C protein and the N-terminal region of the P3D protein. It is interesting to note that four of the five most immunoreactive domains are derived from small HAV proteins and/or encompass protein cleavage sites separating different HAV proteins. The HAV-specific immunoreactivity of each antigenically reactive peptide was confirmed by using seven HAV seroconversion panels. Collectively, these data demonstrate that HAV structural and nonstructural proteins contain antigenic epitopes that can be efficiently modeled with short synthetic peptides. (+info)
Replication of a foamy virus mutant with a constitutively active U3 promoter and deleted accessory genes.
(23/2159)
Foamy viruses (FVs) are complex retroviruses which require for their replication the activity of a transcriptional trans-activator (Tas) as well as Tas-responsive elements in the viral promoters. A mutant of the chimpanzee FV strain, CFV/hu (previously called human FV), genome in which most of the U3 promoter of the CFV long terminal repeat was substituted by the constitutively active human cytomegalovirus immediate early gene enhancer/promoter was constructed. This plasmid (pTS12) and a derivative (pTS13), which has a deletion in the tas gene, gave rise to replication-competent virus. Compared with parental CFV, both mutants replicated only very poorly, with retarded growth kinetics and maximal cell-free virus titres reduced by approximately three orders of magnitude. Mutation of the DD35E motif of the CFV integrase to DA35E rendered the recombinant TS virus replication-deficient. This indicated that provirus integration is probably still required for this FV derivative, which had been converted from a complex regulated retrovirus into a simple one by incorporation of a constitutively active promoter from another virus which regularly does not integrate into the host cell genome. (+info)
Immunization of chimpanzees with tumor antigen MUC1 mucin tandem repeat peptide elicits both helper and cytotoxic T-cell responses.
(24/2159)
CTLs and antibody responses to the tumor-associated antigen MUC1 mucin can be detected in patients with adenocarcinomas of the breast, pancreas, colon, and ovary. However, neither response is generally effective at controlling disease. Methods to augment immunity to MUC1 are being designed, with the expectation that this will lead to an antitumor response. The key to eliciting potent immunity to tumor MUC1 may be in generating MUC1-specific T-helper cell responses, which, to date, have not been reported in cancer patients. We have recently demonstrated that a synthetic vaccine representing five copies of the MUC1 tandem repeat peptide can be used to prime MUC1-specific human CD4+ T cells in vitro. Here, we extend these studies to test the immunogenicity and safety of the tandem repeat peptide in the chimpanzee, which has the identical MUC1 tandem repeat sequence to the human. To promote induction of Th1-type responses, we used the novel adjuvant LeIF, a Leishmania-derived protein that is known to stimulate human peripheral blood mononuclear cells (PBMCs) and antigen-presenting cells, to produce a Th1-type cytokine profile. We found that MUC1 tandem repeat peptide administered with LeIF elicited positive, albeit transient, proliferative T-cell responses to MUC1 in the PBMCs from four of four chimpanzees. Immunization induced MUC1-specific IFN-gamma but not interleukin 4 expression in CD4+ T cells from PBMCs and draining lymph nodes. MUC1-specific CTLs were also generated that did not induce detectable autoimmune dysfunction during the 1 year of observation. We conclude that the MUC1 tandem repeat peptide can be used to elicit both T-helper and cytotoxic cell responses to MUC1 in the primate and holds promise as a safe and effective cancer vaccine. (+info)