Selective replication of simian immunodeficiency virus in a subset of CD4+ lymphocytes

Enhancement of interferon induction by ORF3 product of hepatitis E virus

Hepatitis E virus (HEV) causes both the endemic and epidemic spread of acute hepatitis in many parts of the world. HEV open reading frame 3 (ORF3) encodes a 13-kDa multifunctional protein (vp13) that is essential for HEV infection of animals. The exact role of vp13 in HEV infection remains unclear. In this study, vp13 was found to enhance interferon (IFN) production induced by poly(I · C), a synthetic analog of double-stranded RNA. Poly(I · C) treatment induced a higher level of IFN-β mRNA in HeLa cells stably expressing vp13 than in control cells. Using a luciferase reporter construct driven by the IFN-β promoter, we demonstrated that vp13 enhanced retinoic acid-inducible gene I (RIG-I)-dependent luciferase expression. This enhancement was found to be due to both an increased level of RIG-I protein and its activation. The levels of both endogenous and exogenous RIG-I were increased by vp13 by extension of the half-life of RIG-I. Additionally, vp13 interacts with the RIG-I N-terminal domain and enhances its K63-linked ubiquitination, which is essential for RIG-I activation. Analysis of vp13 deletion constructs suggested that the C-terminal domain of vp13 was essential for the enhancement of RIG-I signaling. In HEV-infected hepatoma cells, wild-type HEV led to a higher level of RIG-I and more poly(I · C)-induced IFN-β expression than did ORF3-null mutants. Analysis of vp13 from four HEV genotypes showed that vp13 from genotype I and III strains boosted RIG-I signaling, while vp13 from genotype II and IV strains had a minimal effect. These results indicate that vp13 enhances RIG-I signaling, which may play a role in HEV invasion.

IMPORTANCE

Hepatitis E virus (HEV) is a significant pathogen causing hepatitis in many parts of the world, yet it is understudied compared with other viral hepatitis pathogens. Here we found that the HEV open reading frame 3 product, vp13, enhances interferon induction stimulated by a synthetic analog of double-stranded RNA. This enhancement may play a role in HEV invasion, as vp13 is essential for HEV infection in vivo. The results of this study provide insights into virus-cell interactions during HEV infection. In addition to revealing its possible roles in HEV interference with cellular signaling, these results suggest that the second half of the vp13 sequence can be ligated into the genomes of attenuated live viruses to induce an innate immune response for better protective immunity, as well as a marker for differentiation of vaccinated animals from those infected with the corresponding wild-type viruses.

Peripheral blood CD4 and CD8 double-positive T cells of rhesus macaques become vulnerable to Simian Immunodeficiency Virus by in vitro stimulation due to the induction of CCR5

In vivo Simian Immunodeficiency Virus (SIV) challenge of macaques demonstrated the earlier disappearance of CD4 and CD8 double-positive (DP) T cells than CD4 single-positive T cells, although its mechanism remains unclear. Here we found that peripheral DP T cells were readily induced to express CCR5, a secondary receptor for SIV, by in vitro stimulation with either concanavalin A or anti-CD3/CD28 monoclonal antibodies. Activated DP T cells were more vulnerable to SIV infection, indicating that the ability of DP T cells to readily express CCR5 after activation may hasten DP T cell death by SIV infection in vivo.

Infection of CD4+ memory T cells by HIV-1 requires expression of phosphodiesterase 4

Using PCR to monitor HIV-1 RNA genome reverse transcription and nuclear import of preintegration complexes, we found that memory, but not naive, CD4+ T cells could support transport of HIV-1 DNA to nuclei upon TCR/CD3 and IL-2 stimulation. Moreover, memory CD4+ T cells, unlike naive CD4+ T cells, express high levels of phosphodiesterase 4 (PDE4) constitutively. Selective blocking of PDE4 activity inhibited IL-2R expression and thereby led to abolishing HIV-1 DNA nuclear import in memory T cells; however, full-length viral DNA synthesis was not affected. Thus, blocking PDE4 prevents initiation of HIV-1 DNA circle formation in T cells. The fact that PDE4 is expressed constitutively at higher levels in memory vs naive CD4+ T cells may help HIV-1 readily infect memory T cells.

Markers of Lymphocyte Homing Distinguish CD4 T Cell Subsets That Turn Over in Response to HIV-1 Infection in Humans

In HIV-1 infection, the abrupt rise in CD4 T cells after effective antiretroviral therapy has been viewed as a measure of HIV-1-related CD4 T cell turnover in the steady state. The early (2–4 wk) response is reportedly dominated by CD4 T cells with a memory (CD45RO) phenotype. It is controversial whether the measurement of steady-state kinetics identifies cells that otherwise would have been recruited into a short-lived, virus-producing pool or reflects lymphoid redistribution/sequestration. We performed detailed phenotypic and kinetic analysis of CD4 T cell subsets in 14 patients. Turnover occurs in memory (CD45RO) as well as naive (CD45RA) cells, if the latter are present at baseline. Most of the turnover occurs in those memory (CD45RO) and naive (CD45RA) cells that are programmed for recirculation through lymphoid organs (CD62L+ and CD44low), whereas very little turnover occurs in memory cells (CD45RO) destined for recirculation from blood to tissue (CD62L− and CD44high). Turnover occurs in both activated (CD25+ and HLA-DR+) and nonactivated populations, although it is restricted to CD38-positive cells, indicating that turnover does not measure cells that are already infected. More likely, turnover occurs in cells that replace infected cells or are on their way to becoming infected. Taken together, markers of lymphocyte trafficking better describe cell turnover related to virus replication than do naive and memory markers per se, and lymph organs, not tissue-destined cells or peripheral blood cells, appear to be the important site of virus replication and CD4 T cell turnover, destruction, and redistribution.

Effects of SIVmac infection on peripheral blood CD4+CD8+ T lymphocytes in cynomolgus macaques

We have previously reported that CD4+CD8+ double-positive (DP) T cells with a resting memory phenotype exist in a substantial proportion of peripheral blood lymphocytes of adult cynomolgus macaques. In this study, we examined the effects of simian immunodeficiency virus of macaque (SIVmac) infection on DP T cells. In vitro, SIVmac239 nef-open (239) and its nef-deletion mutant replicated well in both CD4+CD8- and DP T cells. However, when the macaques were infected with 239, DP, but not CD4+CD8-, T cells were transiently increased in parallel with cell activation and viral replication, followed by depletion within 1 month postinfection. Interestingly, the nef gene was required for depletion but not for the increase and activation of DP T cells. These data suggest that the pathogenic SIV infection may downmodulate production and/or blood circulation of DP T cells by a Nef function-related mechanism(s) different from that for the depletion of CD4+CD8- T cells.

The importance of lymphocyte trafficking in regulating blood lymphocyte levels during HIV and SIV infections

In humans, blood is commonly monitored to provide surrogates of disease progression and assess immune status. However, the varied, rapid and atypical alterations in lymphocyte subsets which may occur in blood in response to pathogens, are not predictive of changes in the bulk of the immune system. A hallmark of human and simian immunodeficiency virus (SIV) infections is the profound loss of blood CD4(+) lymphocytes, a feature widely accepted as being a consequence of direct or indirect viral killing of CD4(+) cells throughout the body. However, in recording declining CD4 counts and CD4/8 ratios in the blood, little attention has been paid to migratory behaviour or the composition and tissue distribution of various lymphocyte subsets. This article compares the lymphocyte subsets in blood and various tissues in normal and virus-infected individuals prior to and following drug treatment and indicates an absence of selective CD4(+) cell decreases or increases, highlighting the importance of lymphocyte trafficking and compartmentalization in regulating blood T cell levels and suggesting a reevaluation of the currently favoured paradigm.

Differential susceptibility of naive and memory CD4+ T cells to the cytopathic effects of infection with human immunodeficiency virus type 1 strain LAI

CD4+ T lymphocytes of individuals infected with human immunodeficiency virus type 1 (HIV-1) exhibit a qualitative defect in their ability to mount memory responses to previously encountered antigens although their responses to mitogens remain normal. T cells responsible for memory responses can be distinguished from naive T cells based on differential expression of isoforms of the tyrosine phosphatase CD45. It has been suggested that memory CD4+ T cells from infected individuals have a greater virus burden than naive CD4+ T cells and that this accounts for the loss of recall responses in infected individuals. However, it has been unclear whether naive and memory T cells are equally susceptible to infection and to the cytopathic effects of the virus. We therefore infected highly purified resting naive and memory CD4+ T cells from HIV-1-seronegative individuals with HIV-1(LAI). Infected cells were then stimulated with phytohemagglutinin to render them permissive for viral replication. Cell viability and growth rate were monitored for 8 to 10 days as indicators of cytopathic effects induced by HIV-1(LAI). Our results indicated that naive and memory CD4+ T cells display marked differences in susceptibility to the cytopathic effects induced by HIV-1(LAI), infection. The cytopathic effects induced by HIV-1(LAI) were much more severe in memory CD4+ T cells than in naive CD4+ T cells. Differential cytopathic effects in naive and memory T cells were not due to differences in virus entry into and replication in these cell populations. Rather, memory cells were more susceptible to cytopathic effects. Pronounced cytopathic effects in memory cells were clearly detectable at 7 day postinfection. Cell death occurred at the single-cell level and was not accompanied by syncytium formation. The growth rate of infected memory CD4+ T cells was also severely compromised compared to that of naive CD4+ T cells, whereas the growth rates of both uninfected naive and memory CD4+ T cells were approximately the same. At least a portion of the dying cells exhibited biochemical changes characteristic of apoptosis. These results suggest that the selective functional defects present in the memory CD4+ T-cell subset of HIV-1-infected individuals may in part be the result of the greater susceptibility of memory T cells to cytopathic effects induced by HIV-1.

CD44: structure, function, and association with the malignant process

CD44 is a ubiquitous multistructural and multifunctional cells surface adhesion molecule involved in cell-cell and cell-matrix interactions. Twenty exons are involved in the genomic organization of this molecule. The first five and the last 5 exons are constant, whereas the 10 exons located between these regions are subjected to alternative splicing, resulting in the generation of a variable region. Differential utilization of the 10 variable region exons, as well as variations in N-glycosylation, O-glycosylation, and glycosaminoglycanation (by heparan sulfate or chondroitin sulfate), generate multiple isoforms (at least 20 are known) of different molecular sizes (85-230 kDa). The smallest CD44 molecule (85-95 kDa), which lacks the entire variable region, is standard CD44 (CD44s). As it is expressed mainly on cells of lymphohematopoietic origin, CD44s is also known as hematopoietic CD44 (CD44H). CD44s is a single-chain molecule composed of a distal extracellular domain (containing, the ligand-binding sites), a membrane-proximal region, a transmembrane-spanning domain, and a cytoplasmic tail. The molecular sequence (with the exception of the membrane-proximal region) displays high interspecies homology. After immunological activation, T lymphocytes and other leukocytes transiently upregulate CD44 isoforms expressing variant exons (designated CD44v). A CD44 isform containing the last 3 exon products of the variable region (CD44V8-10, also known as epithelial CD44 or CD44E), is preferentially expressed on epithelial cells. The longest CD44 isoform expressing in tandem eight exons of the variable region (CD44V3-10) was detected in keratinocytes. Hyaluronic acid (HA), an important component of the extracellular matrix (ECM), is the principal, but by no means the only, ligand of CD44. Other CD44 ligands include the ECM components collagen, fibronectin, laminin, and chondroitin sulfate. Mucosal addressin, serglycin, osteopontin, and the class II invariant chain (Ii) are additional, ECM-unrelated, ligands of the molecule. In many, but not in all cases, CD44 does not bind HA unless it is stimulated by phorbol esters, activated by agonistic anti-CD44 antibody, or deglycosylated (e.g., by tunicamycin). CD44 is a multifunctional receptor involved in cell-cell and cell-ECM interactions, cell traffic, lymph node homing, presentation of chemokines and growth factors to traveling cells, and transmission of growth signals. CD44 also participates in the uptake and intracellular degradation of HA, as well as in transmission of signals mediating hematopoiesis and apoptosis. Many cancer cell types as well as their metastases express high levels of CD44. Whereas some tumors, such as gliomas, exclusively express standard CD44, other neoplasms, including gastrointestinal cancer, bladder cancer, uterine cervical cancer, breast cancer and non-Hodgkin's lymphomas, also express CD44 variants. Hence CD44, particularly its variants, may be used as diagnostic or prognostic markers of at least some human malignant diseases. Furthermore, it has been shown in animal models that injection of reagents interfering with CD44-ligand interaction (e.g., CD44s- or CD44v-specific antibodies) inhibit local tumor growth and metastatic spread. These findings suggest that CD44 may confer a growth advantage on some neoplastic cells and, therefore, could be used as a target for cancer therapy. It is hoped that identification of CD44 variants expressed on cancer but not on normal cells will lead to the development of anti-CD44 reagents restricted to the neoplastic growth.

Alteration of CD44 expression in HIV type 1-infected T cell lines

CD44 is known to interfere in HIV replication and to participate in many physiological processes such as lymphocyte binding to high endothelial venules of lymphoid tissue, lymph nodes, and mucosal endothelium. The T cell lines MOLT-4 and CEM, and CEM subclones were infected with the HIV-1 LAI strain and monitored for the expression of CD44 during the course of chronic virus production until the infected cells were at the stage of latent infection. The levels of CD44 protein expression were quantified using cell surface immunostaining and biotinylation. The maturation of CD44 molecules was evaluated by metabolic sulforadiolabeling and CD44 mRNA was visualized by Northern blot analysis. We show a downmodulation of CD44 expression in infected T cell lines and subclones. This phenomenon was most evident at the stage of latent infection. Then, CD44 molecules were undetectable at both the protein and mRNA levels in latently infected CEM cells and CEM subclones. In addition, the 97-kDa standard CD44 isoform showed a shift upward, while detectable during the stage of chronic virus production. In latently infected MOLT-4 cells, the CD44 protein levels were dramatically decreased; CD44 mRNA was detected, but the sizes differed from the mRNA in uninfected cells. Since CD44 is known to regulate in part lymphocyte homing and HIV replication, the alterations that were observed in the expression of this molecule could interfere with the particular homing of HIV-infected cells and/or viral latency.

Simian immunodeficiency virus infection of CD8+ lymphocytes in vivo

To determine the lymphoid target cells of simian immunodeficiency virus (SIV) in vivo, peripheral blood lymphocytes (PBL) and lymph node lymphocytes (LNL) were positively selected (>97% purity) for surface expression of CD4, CD8, or CD20 and then analyzed for SIV provirus using semiquantitative DNA amplification. We found provirus in CD4+ and CD8+ lymphocytes but none in CD20+ lymphocytes. During acute SIV infection (< or = 214 days postinoculation), the percentage of PBL and LNL CD4+ cells containing proviral DNA ranged from 0.2 to 20% and from 0.2 to 2%, respectively. Proviral burden in the CD8+ population of either PBL or LNL ranged from 0.01 to 0.2%. Virus isolation by cocultivation was positive for both CD4+ and CD8+ purified populations. No difference in proviral burden was observed between PBL and LNL subsets during acute SIV infection. Up to 19.4% of positively selected CD8+ cells also expressed CD4, and thus the provirus may reside within a dual-positive population. This dual-positive population may represent activated lymphocytes that are particularly susceptible to infection and may provide an opportunity for virus entry into the CD8+ CD4- lymphocytes in vivo.

HIV acquires functional adhesion receptors from host cells

CD4 is known to serve as the principal cellular receptor for HIV. However, several observations suggest that other molecules may be involved in infection of cells by HIV. Cell adhesion molecules and their ligands expressed on HIV-susceptible cells have been implicated in the biology of HIV in a number of studies. We have recently reported that HIV and SIV acquire cell adhesion molecules from host cells. We now report that a specific cell adhesion molecule, CD44, that is acquired by HIV retains its biological activity when expressed on the virus. We tested CEMx174 cells, which are CD4-positive and HIV-susceptible for phorbol ester-inducible binding to hyaluronic acid through CD44. Phorbol ester-stimulated but not unstimulated CEMx174 cells bound hyaluronic acid. Likewise, HIV from stimulated cells but not from unstimulated cells bound hyaluronic acid through acquired CD44 molecules. This is the first demonstration that adhesion molecules acquired by HIV are functional and the results imply that HIV may have the capacity to bind to any cell or substrate that its host cell binds to. The demonstration of functional adhesion receptors on HIV has important implications with respect to the tropism, infectivity, and dissemination of HIV.

Simian immunodeficiency virus infection of macaque primary placental cells

We have characterized the ability of a simian immunodeficiency virus, SIVmne strain E11S, to infect macaque placental trophoblast and Hofbauer cells. These primary placental cells were permissive to SIVmne infection, regardless of gestational age. Virus production by the infected cells was determined as time-dependent viral core antigen p27 production, followed by verification of the proviral gag/LTR DNA sequences in the infected cells using a polymerase chain reaction assay. Of more than six placentas tested, SIVmne infection of placental cells at an early gestational age (i.e., days 55 or 78) produced more than 10-fold the amount of virus core antigen p27 than did placental cells infected at a late gestational age (i.e., days 135 or 165). In addition, SIVmne infection of trophoblast cells was inhibited by SIVmac neutralizing macaque serum but not by normal serum, indicating the specificity of virus infection. Furthermore, the amount of SIV core antigen p27 produced by the virus-infected trophoblast and Hofbauer cells was shown to be dependent on the multiplicity of virus infection. Collectively, our results indicate that macaque trophoblast and Hofbauer cells can be infected by SIV and that both gestational age and viral dose may play a role in the extent of viral infection.

Cellular CD44S as a determinant of human immunodeficiency virus type 1 infection and cellular tropism

CD4 is the predominant cell membrane protein that binds human immunodeficiency virus type 1 (HIV-1) gp120 and facilitates HIV-1 infection, but other membrane-associated molecules may be involved in determining HIV-1 cellular infection. Our prior work had suggested that CD44, the transmembrane receptor for hyaluronan, might play a role in the infection of mononuclear phagocytes with HIV-1. In the present work, we have used cells of the CD4-positive, CD44-negative human T-lymphoblast cell line Jurkat to study the role of CD44 in HIV-1 infection and tropism. Cells were transfected with cDNA for the standard (S, or hematopoietic) CD44 isoform CD44S or the epithelial isoform CD44E. The resultant lines expressed appropriate CD44S or CD44E mRNA and protein. While the parent Jurkat cells, those transfected with vector alone, and those transfected with CD44E could be productively infected with only the lymphocytotropic strain HIV-1-LAI, cells transfected with CD44S were rendered susceptible to productive infection with the monocytotropic strains HIV-1-BaL and HIV-1-ADA. Also, CD44S-transfected cells displayed higher levels of infection with HIV-1-LAI than did the other transfected Jurkat cells. The transfected cell line cells all had comparable growth rates and expressed similar levels of the membrane antigens CD4, CD7, major histocompatibility complex (MHC) class I, MHC class II, and CD11a, while levels of CD3 were slightly higher in cells transfected with vector alone and in one of the clones transfected with CD44S. Hyaluronan binding was increased in cells transfected with either CD44S or CD44E. Mouse NIH 3T3 fibroblasts transfected with human CD4, human CD44S, or both human CD4 and CD44S displayed the appropriate antigens, but they could not be productively infected with lymphocytotropic or monocytotropic strains of HIV-1. The results indicate that in human leukocytes, CD44S is an important determinant of HIV-1 productive infection and may be involved in viral cellular tropism.

Inhibition of HIV type 1 infection of mononuclear phagocytes by anti-CD44 antibodies

Cellular CD4 is the primary membrane molecule that binds HIV-1 through interaction with viral gp120. Membrane glycolipids and cell adhesion molecules have also been noted to be involved in the interaction of HIV-1 with cells and in syncytium formation in infected cells. The purpose of this study was to determine the role of the cell adhesion molecule CD44 in HIV-1 infection of cells. Both normal blood monocytes and lymphocytes expressed CD44 as determined by flow cytometry using the anti-CD44 antibody A3D8. Anti-CD44 monoclonal antibodies A3D8, A1G3, and 5F12 [ascites, purified IgG, and F(ab')2] inhibited infection of monocytes and peritoneal macrophages with HIV-1-BaL and HIV-1-ADA, but had no effect on HIV-1-IIIB infection of mitogen-stimulated lymphocytes, or cells of a T lymphocyte line. CD44 monoclonal antibodies were not toxic for monocytes, and the observed inhibitory effect of CD44 monoclonal antibodies was not dependent on complement. These results suggest that CD44 may be a determinant of HIV-1 infection of mononuclear phagocytes in vitro.

Primary stage of feline immunodeficiency virus infection: viral dissemination and cellular targets

The objective of this study was to identify cellular and organ targets of acute feline immunodeficiency virus (FIV) infection in vivo. Tissues of FIV-infected cats were studied at eight time points during the first 3 months after experimental infection. FIV nucleic acids were first detected by in situ hybridization 21 days after infection, approximately 1.5 weeks after lymph node enlargement was first observed and 3 weeks before the primary acute flu-like illness. The majority of FIV-infected cells were present in lymphoid organs, though low numbers of infected cells were noted in nonlymphoid organs as well. Germinal centers harbored many of the FIV-infected cells within lymphoid tissues. The thymic cortex was also a major site of early infection. Combined in situ hybridization and immunohistochemistry revealed that T lymphocytes were the primary target of early FIV infection in tissues of cats before the onset of clinical signs of acute illness. An unidentified population of mononuclear cells and a few macrophages were also infected. During the ensuing acute flu-like illness, the proportion of FIV-infected macrophages in tissues increased dramatically. This early shift in the predominant cellular localization of FIV from T lymphocytes to macrophages may be important for establishing viral persistence.

T-cell activation influences initial DNA synthesis of simian immunodeficiency virus in resting T lymphocytes from macaques

The relationship between T-cell activation and early events in the replication cycle of simian immunodeficiency virus (SIV) was analyzed in resting T lymphocytes from macaques. We used the polymerase chain reaction to detect an early product of reverse transcription (R/U5) and almost complete viral DNA (long terminal repeat/gag). We found that SIV can enter resting T lymphocytes and initiate replication but that the reverse transcription process is not efficient and proceeds slowly in resting cells. Cross-linking the CD3/T-cell receptor complex with monoclonal antibodies, unlike cross-linking either the CD28 or CD2 accessory receptor and like phorbol myristate acetate, induced a rapid increase in viral R/U5 DNA detected within 3 to 6 h postinfection. Anti-CD3 or phorbol myristate acetate induced replication of full-length viral DNA within 6 to 9 h postinfection, but full-length SIV DNA was not detectable at earlier time points. We then compared various inhibitors of T-cell activation for their effects on viral initiation and complete replication. Cyclosporin A, an inhibitor of a distal step in T-cell activation, blocked anti-CD3-induced T-cell proliferation and completion of SIV DNA replication but had no effect on induced increases in SIV R/U5 DNA. By contrast, initial SIV DNA synthesis was partially blocked by inhibitors of very early steps in T-cell activation, including herbimycin A, an inhibitor of protein tyrosine kinases, and by two different inhibitors of protein kinase C, H7 and staurosporine. Since resting T cells do not efficiently complete SIV DNA synthesis and cyclosporin A can block the formation of complete viral DNA induced in activated T cells, a cellular factor(s) present in activated T cells appears to be required for the formation of full-length SIV DNA.

Association of host cell surface adhesion receptors and other membrane proteins with HIV and SIV

We have developed a MAb-based capture assay to study the association of host cell membrane proteins with HIV and SIV. Class I and II MHC proteins were found to be associated with HIV as previously described. In addition to these molecules a number of other host molecules were found to be acquired by HIV, including CD71, CD63, CD43, and CD8. We have demonstrated that the major leukocyte adhesion receptors LFA-1 (CD11A/CD18) and CD44 are also associated with HIV. The level of surface expression of host membrane proteins did not predict relative expression (capture efficiency) of the virus. The use of virus-susceptible indicator cells showed that the assay involved host membrane protein-mediated capture of infectious HIV and SIV particles. Our data indicate that HIV and SIV acquire a number of host membrane proteins including adhesion receptors and that this process may be nonrandom. The acquisition of host cell adhesion receptors by HIV and SIV could have profound effects on the biology of the viruses, including binding, infectivity, and tropism.

In vivo lymphocyte tropism of feline immunodeficiency virus

Feline immunodeficiency virus (FIV) infection in the cat is similar to human immunodeficiency virus type 1 infection in causing a selective reduction in CD4+ cell numbers, leading to inversion of the CD4+/CD8+ ratio. To determine whether FIV, similar to human immunodeficiency virus type 1, has a tropism for CD4+ cells, we examined the in vitro and in vivo susceptibilities of feline lymphocyte subpopulations to FIV infection. Infection of interleukin-2-dependent CD4+ or CD8+ lymphocyte cultures with the NCSU1 isolate of FIV (FIV-NCSU1) resulted in syncytium formation, cell death, and Mg(2+)-dependent reverse transcriptase (RT) activity in both cases. Monoclonal antibodies to feline lymphocyte subsets were used to sort peripheral blood mononuclear cells from FIV-infected cats into highly (> 95%) purified CD4+ cell, CD8+ cell, immunoglobulin-positive (Ig+) cell, and monocyte subpopulations. The mononuclear cell subpopulations were analyzed for FIV provirus by polymerase chain reaction and Southern blot analysis and for virus expression by RT activity. All 16 cats infected with FIV-NCSU1 demonstrated FIV provirus in CD4+ cell-, CD8+ cell-, and Ig+ cell-enriched lymphocyte populations. Southern blot detection of amplified gag gene sequences and limiting-cell-dilution polymerase chain reaction analysis indicated that Ig+ cells carried a higher FIV provirus burden in chronically (> or = 1-year) infected cats than either CD4+ or CD8+ cells. In contrast, CD4+ cells carried the greatest provirus burden in acutely (2- to 4-week) infected cats. FIV provirus was detected in monocytes from only 1 of 10 cats with asymptomatic infection. Addition of culture supernatants from enriched CD4+, CD8+, and Ig+ cells from FIV-infected cats to an FIV-susceptible CD4+ lymphocyte culture resulted in syncytium formation, cell death, and RT activity. Infection of Ig+ cells is not unique to FIV-NCSU1, as lymphocyte subpopulations from other cats with natural infections and cats infected with the Petaluma or Mount Airy isolate of FIV demonstrated a similar distribution of FIV provirus and RT activity. These data suggest that FIV possesses a broad tropism for peripheral blood mononuclear cells and that an Ig+ cell may serve as a major reservoir for the virus in chronically infected cats.

Immune function in offspring of nonhuman primates (Macaca nemestrina) exposed weekly to 1.8 g/kg ethanol during pregnancy: preliminary observations

A preliminary investigation of immune host response was conducted in a group of fetal alcohol-exposed nonhuman primates (Macaca nemestrina) who were part of a broader ongoing study of ethanol teratogenicity. The mothers of the offspring received weekly oral doses of ethanol (1.8 g/kg) for the first 3 or 6 or the entire 24 weeks of gestation. A control group received sucrose solution weekly throughout pregnancy. Four of the 18 ethanol-exposed animals (22%) died or were euthanized after infectious disease or failure to thrive during the first year of life; none of the seven control animals died. This imbalance in survival prompted the present review of immune function in the remaining offspring. Parameters assessed included: (1) white blood cell count (WBC), (2) peripheral blood leucocyte subsets (CD4+, CD8+, CD20+, and CD11c+), (3) T-cell proliferation after activation with phytohemagglutinin (PHA), staphylococcus enterotoxin B (SEB), and tetanus toxoid (TT), (4) phagocytic activity of monocytes, and (5) serum immunoglobulin levels and serum antibody titers after TT vaccination. Mean T-cell proliferation to TT was significantly decreased (p = 0.01) in all ethanol-exposed animals relative to controls, with near-significant decreases (p = 0.06) in response to SEB in the ethanol-exposed animals. Lymphocyte proliferation in response to PHA was not altered. Ethanol-exposed animals had significantly lower TT titers than controls after initial vaccination and booster. WBC, leukocyte subsets, serum immunoglobulins, and monocyte phagocytic activity were not significantly different from control values. These preliminary observations suggest that T-cell proliferation and antigen-specific memory responses may be altered in offspring exposed to weekly doses of ethanol in utero and warrant further evaluation for confirmation.

Decline in the CD4+ lymphocyte population in the blood of SIV-infected macaques is not reflected in lymph nodes

Although loss of CD4+ lymphocytes in peripheral blood is a standard criterion for evaluating the course of HIV disease, little is known about changes within lymphoid organs, which contain the bulk (> 50%) of the body's lymphocytes. Because such studies are feasible only by using non-human primates, we have examined lymph nodes (LNs), spleen, and blood from monkeys infected with two isolates of simian immunodeficiency virus (SIV). During both the acute and chronic phases of these infections, characteristic reductions in the blood CD4+ cell levels are not reflected in LN, where the CD4+ pool remains within normal levels. However, when circulating CD4/CD8 ratios have consistently fallen to approximately 0.5, striking decreases in the percentage of CD4 cells (CD4%) and CD4/CD8 ratios in LN occur concomitantly with dramatic increases in viral antigen expression on follicular dendritic cells within LN germinal centers (GCs). The data suggest that loss from the total T cell pool in minimal until the final stages of SIV and HIV disease and that the immunological deterioration of LN is the event that precipitates the increased susceptibility to infections and progression to AIDS.

Early pathogenesis of disease caused by SIVsmmPBj14 molecular clone 1.9 in macaques

We have studied the early pathogenesis of infection by molecular clone 1.9 of SIVsmmPBj14 in pig-tailed and cynomolgus macaques. Like the uncloned PBj14 parent, SIVsmmPBj14-1.9 consistently induced an acute clinical syndrome characterized by behavioral depression, fever, profuse diarrhea, dehydration, lymphadenopathy, splenomegaly, and mucocutaneous exanthema that began at 7 days postinfection (DPI). The acute clinical disease coincided with a marked cell-associated and cell-free viremia, during which SIV p27 was demonstrated in 4 to 68% of circulating mononuclear leukocytes between 4 and 17 DPI. Also characteristic were monocytosis and reductions in CD4+ and CD8+ T lymphocytes, as well as CD20+ B lymphocytes. The most profound depletion occurred in the CD44hi subset of CD4+ T cells. Unlike animals infected previously with uncloned or biologically cloned PBj14, however, all SIVsmmPBj14-1.9-infected macaques survived the acute-phase disease to progress to a chronic, largely asymptomatic phase of infection. Recovery from the acute-phase disease correlated with down modulation of virus replication and the appearance of antibodies to SIV Env and Gag proteins. Similar to the PBj14 parent, PBj14-1.9 targeted to intestine, spleen, bone marrow, lymph node, and cerebellum. Saliva contained substantial quantities of infectious virus and no viral antibodies during the early phase of infection. By contrast, saliva from chronically infected animals usually contained antibodies but no virus. This study extends previous work demonstrating that the acute clinical syndrome produced by SIVsmmPBj14 in pig-tailed macaques represents a unique model of lentiviral pathogenesis.

Macaque CD4+ T-cell subsets: influence of activation on infection by simian immunodeficiency viruses (SIV)

Simian immunodeficiency virus (SIV) infects a small number of CD4+ T cells including "memory" T cells. The following describes the cell surface markers which may delineate subsets of CD4+ memory T cells and reviews how memory CD4+ T cells are activated and regulated through the T-cell receptor and such accessory receptors as CD28. The factors which may influence initial expression and infection of T cells by CD4 are discussed. Unlike activated and infected T cells, unstimulated CD4+ T cells have little or no SIV DNA detectable in the genomic fraction, but key activation signals may promote integration of viral DNA in memory T cells. Bacterial superantigens (SuperAg) can promote increased levels of SIV viral DNA in mature and immature T cells. Immunodeficiency virus products such as gp120, Nef, and Tat can affect CD4+ T-cell function. Whereas Nef can reduce expression of CD4, Tat reduces the expression of CD28. We hypothesize that the lack of expression of key accessory molecules on CD4 lineage T cells infected with immunodeficiency viruses may make infected T cells more susceptible to recall-antigen-induced programmed cell death.

Characterization of T-cell subsets and T-cell receptor subgroups in pigtailed macaques using two- and three-color flow cytometry

In order to characterize macaque T-lymphocyte subsets, we used a chromophore from a dinoflagellate, peridinin chlorophyll A protein (PerCP), which, like fluorescein isothiocyanate (FITC) and R-phycoerythrin (PE), can be excited by a 488-nm laser and emits light at 670 nm without spectral overlap with FITC and PE. Mouse monoclonal antibodies were conjugated with FITC, PE, and PerCP to detect CD4+ and CD8+ cells in macaque peripheral blood lymphocytes (PBL) subsets before and after activation and in nonactivated thymocytes. Resting and activated macaque blood CD4+ T-cells could be clearly delineated into discrete subsets with either CD28, CD45RA, or CD45RO as a second marker and CD26, CD29, CD44, or CD69 as a third marker. CD8+ cells were further subdivided by expression of similar combinations of markers. A subset of CD8+ CD28- T-cells in blood expressed the activation marker CD69, suggesting that they were already activated. Virtually all CD4+CD8+, CD4+CD8-, and CD4-CD8+ macaque thymocytes expressed CD2, CD3, and CD18 and not CD25, CD44, or CD45O, but macaque thymocyte subpopulations did differ in their expression of CD28 and CD29. The expression of T-cell receptor (TCR) subgroups on macaque PBL and thymocytes was analyzed before and after activation with staphylococcal enterotoxins (superantigens). The pattern of T-cell variable-region expression in macaques was similar to that seen in humans, with a high frequency of T cells expressing V beta 8. After superantigen stimulation, only minor changes in TCR V beta expression were detectable in PBL. A dramatic increase in V beta 8 expression was seen after stimulation of macaque thymus with staphylococcal enterotoxin D (SE-D), a minor increase after toxic shock syndrome toxin 1 (TSST-1) stimulation, and a simultaneous decrease in V beta 6 levels.

CD4 expressed on earliest T-lineage precursor cells in the adult murine thymus

A continuous but low input of stem cells or 'prothymocytes' is necessary to maintain T-cell development in the adult thymus, but the colonizing cell has not been characterized. Precursors of T cells have been found in the minor CD4-8- population of thymocytes, but even the earliest cells of this population already have partially rearranged T-cell antigen receptor (TCR) genes. We now demonstrate that the thymus contains a minute population of lymphoid cells similar in some but not all respects to bone marrow-derived haemopoietic stem cells. This population has TCR genes in a germline state. It gives a slow but extensive reconstitution of both alpha beta and gamma delta lineages on transfer into an irradiated thymus, with kinetics indicating that it includes the earliest intrathymic precursor cells so far isolated. Surprisingly, these cells express low surface levels of the mature T-cell marker CD4.

Preferential infection of CD4+ memory T cells by human immunodeficiency virus type 1: evidence for a role in the selective T-cell functional defects observed in infected individuals

CD4+ T cells of patients with AIDS exhibit a qualitative defect in their ability to respond to soluble antigen while their responses to mitogens remain normal. CD4+ T cells can be broadly divided phenotypically into "naive" [CD45RA+ (2H4+)] and "memory" [CD29+ (4B4+) or CD45RO+ (UCHL1+)] cell subpopulations, which represent distinct maturation stages. To determine the human immunodeficiency virus type 1 (HIV-1) infectability of memory and naive CD4+ T-cell subsets in vitro and to determine the in vivo preference of HIV-1 in these subpopulations, we obtained highly purified CD4+ T-cell subsets from normal and HIV-1-infected individuals and studied them by viral cultivation, quantitative polymerase chain reaction, and functional assays. Polymerase chain reaction studies demonstrated that the memory cell subset of CD4+ T cells is preferentially infected (4- to 10-fold more than naive T cells) by HIV-1 in vitro, and these memory cells are the principal reservoir for HIV-1 within CD4+ T cells obtained from infected individuals. Functional abnormalities attributable to CD4+ T cells in HIV-infected individuals (failure to respond in vitro to soluble antigen or to anti-CD3 monoclonal antibodies) were shown to reside primarily within these memory cells. Thus, the present study suggests that the selective functional defects present in the memory CD4+ T-cell subset of HIV-infected individuals may be a direct result of the preferential infection and consequently greater viral burden within these cells.