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Query: UMLS:C0019693 (
HIV
)
170,526
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Measurement of CD4 T-lymphocyte levels is clinically useful in monitoring immune status in a number of conditions, including human immunodeficiency virus (HIV) infection, in which the absolute CD4 count is used to guide therapy. The absolute CD4 count is obtained by multiplying the results of the leukocyte count and the differential with a hematology cell counter and the percentage of CD4+ T lymphocytes determined by flow cytometry. These techniques require expensive, complex instrumentation, and interlaboratory results are difficult to standardize and reproduce. The rapid growth of
HIV infection
worldwide has increased the need for more-reproducible and cost-effective methods for CD4 T-cell monitoring. The TRAx CD4 test kit is based on a novel adaptation of conventional enzyme-linked immunosorbent assay (ELISA) and permits the simple quantitation of total
CD4 protein
from whole-blood lysates. In this study, the relationship between total
CD4 protein
measured in units per milliliter (TRAx) and in cells per microliter (flow cytometry and hematology) was defined in a multisite clinical study using linear regression analysis. Data from 230 HIV-seronegative and 321 HIV-seropositive specimens were used to calibrate the TRAx assay recombinant CD4 standards and controls in equivalent CD4 T lymphocytes per microliter (cells per microliter). The calibration of the TRAx CD4 assay in cells per microliter was validated with a second group of specimens from 17 healthy volunteers and 20 HIV-seropositive patients which were collected and tested under strictly controlled conditions intended to minimize the effects of specimen aging on the results of the reference method. These data were also used to estimate the variability of absolute CD4 count by cytometric methods as well as the precision of the TRAx CD4 result after it was calibrated in cells per microliter. Overall, correlations between the two methods ranged from 0.87 to 0.95. Additional studies demonstrated that the contribution of
CD4 protein
from monocytes and any soluble CD4 in sera are negligible in the TRAx assay and do not significantly affect results. This new method represents a promising alternative to absolute CD4 T-cell enumeration by flow cytometry and hematology.
...
PMID:Comparison of CD4 cell count by a simple enzyme-linked immunosorbent assay using the TRAx CD4 test kit and by flow cytometry and hematology. 771 1
Lymphocytotoxic autoimmunity (LA) is ubiquitous in AIDS. Its causes are unknown. We report that significant amino acid sequence similarities exist between the proteins of infectious organisms associated with AIDS and the
CD4 protein
of T-helper lymphocytes. These included:
HIV
, cytomegalovirus (CMV), Epstein-Barr virus (EBV), herpes simplex viruses (HSV), Varicella Zoster virus (VZV), Escherichia coli, Mycobacteria, Mycoplasmas, Plasmodium, and Staphylococcus. It has been reported previously that
HIV
proteins have significant similarities with human class II MHC (HLA class II) proteins. Since CD4 and HLA class II proteins are chemically complementary, pairs of homologous antigens will also be complementary. It follows that concurrent infections with CD4 and HLA class II-homologous antigens will result in idiotype-antiidiotype antibody pairs that cannot distinguish 'self' from 'nonself', that acts as lymphocytotoxins, and form circulating immune complexes. Thus, combined
HIV
-CMV,
HIV
-EBV,
HIV
-HBV,
HIV
-mycoplasma, or other appropriate infectious pairs may suffice to trigger LA in AIDS.
...
PMID:CD4 similarity to proteins of infectious agents in AIDS and their role in autoimmunity. 773 8
More than 90% of people with AIDS develop circulating immune complexes (CICs) and lymphocytotoxic antibodies (LCTAs). Animals infected with
HIV
, however, never display CICs or LCTAs, and remain healthy. Similarly,
HIV
-infected people who do not develop CICs or LCTAs also do not progress to AIDS. The appearance of CICs and LCTAs is, however, highly prognostic for AIDS and death. Since
HIV infection
does not, per se, lead to the development of CICs and LCTAs, other causes are likely. One such cause, for which both epidemiologic and experimental evidence exists, is semen. Semen components include sperm, seminal fluid, lymphocytes, and sometimes infectious agents, including
HIV
, mycoplasmas, and herpes and hepatitis viruses, all of which independently cause immune suppression. Extensive evidence demonstrates sperm (and various viruses) contains many proteins mimicking the
CD4 protein
of T-helper cells, while
HIV
, mycoplasmas, and seminal fluid mimic class II MHC proteins of other lymphocytes. We identify a large number of protein sequences that display such mimicry using computer homology searching, and demonstrate experimentally that sperm antibodies specifically precipitate antibodies against class II MHC mimics such as mycoplasmas, which in turn precipitate antibodies to lymphocyte antigens. These data prove that immunologic exposure to sperm and lymphocytes (as may occur in receptive anal intercourse, needle sharing, or blood transfusions) is theoretically capable of initiating lymphocytotoxic autoimmunity. Such autoimmunity may play a significant role in the pathogenesis of AIDS, and will need to be addressed clinically in high risk individuals regardless of
HIV
status and regardless of the success of anti-
HIV
prophylaxis and treatment.
...
PMID:Semen alloantigens and lymphocytotoxic antibodies in AIDS and ICL. 774 57
HIV
is the etiologic agent of AIDS. AIDS results from the loss of cells that are central to immune responses, T lymphocytes that express the
CD4 protein
on their surface. This paper relates
HIV
structure and replication to the clinical course of
HIV infection
. The virology of
HIV
replication is discussed first at the cellular and molecular levels. The course of
HIV infection
in vivo then is discussed and related to
HIV
replication. Finally, models that have been proposed to explain the mechanism whereby
HIV
causes immunodeficiency are considered. Although much is known about the growth of the virus both in vitro and in vivo, many questions remain about how
HIV
can deplete CD4-positive T lymphocytes and cause AIDS.
...
PMID:HIV: virology and mechanisms of disease. 791 89
Human immunodeficiency virus type 1 (HIV-1) Nef is a myristylated protein with a relative molecular mass of 27 kDa, is localized to the cytoplasmic surfaces of cellular membranes, and has been reported to down-modulate CD4 in human T cells. To understand the mechanism of
HIV
-1 Nef-mediated down-modulation of cell surface CD4, we expressed Nef protein in human T-cell line VB. Expression of
HIV
-1 Nef protein down-modulated surface CD4 molecules. In pulse-chase experiments, CD4 molecules in Nef-expressing cells were synthesized at normal levels. However, the bulk of newly synthesized
CD4 protein
was degraded with a half-life of approximately 6 h, compared with the 24-h half-life in control cells. This Nef-induced acceleration of CD4 turnover was inhibited by lysosomotropic agents NH4Cl and chloroquine as well as by the protease inhibitor leupeptin. Surface CD4 biotinylation experiments demonstrated that CD4 molecules in Nef-expressing T cells are transported to the plasma membrane with normal kinetics but are then rapidly internalized. Therefore,
HIV
-1 Nef-induced down-modulation of CD4 is due to rapid internalization of surface CD4 and subsequent degradation by an acid-dependent process, potentially lysosomal. Additionally, in a Nef-expressing cell, we find accelerated dissociation of the T-cell tyrosine kinase p56lck and CD4 but only after the complex reaches the plasma membrane. This implies that
HIV
-1 Nef protein might play a role in triggering a series of T-cell activation-like events, which contribute to p56lck dissociation and internalization of surface CD4 molecules.
...
PMID:Human immunodeficiency virus type 1 Nef-induced down-modulation of CD4 is due to rapid internalization and degradation of surface CD4. 803 15
In vivo infection of human T cell lymphocytes by
HIV
-1 is mediated by the specific binding of the
HIV
-1 envelope glycoprotein gp120 to the T cell CD4 receptor. One of the post-infection events observed in vivo is the progressive loss of CD4+ T cells. One possible mechanism is the production of infected T cells which are lacking in surface expression of the CD4 receptor protein. We have analysed this possibility utilizing the two
HIV
-1 chronically-infected CD4- cell lines, 8E5 and ACH-2, both of which are derived from a CD4+ parental strain (A3.01) after
HIV
-1 infection. In each cell (8E5 and ACH-2) the loss of CD4 surface expression was found to occur by different mechanisms. In ACH-2 cells, neither
CD4 protein
nor the 3 kb CD4 RNA transcript could be detected. However, treatment of ACH-2 cells with cycloheximide elicited production of the 3 kb transcript suggesting the possibility for a repressor protein(s) to act at the level of transcription and/or stability of the 3 kb mRNA. In contrast, in 8E5 cells the level of the 3 kb CD4 RNA was comparable with that found in the CD4+ A3.01 parental strain. Analysis of the 8E5 strain revealed the presence of a CD4- gp160 bimolecular protein complex sequestered internally in the rough endoplasmic reticulum (RER). Finally, the protein tyrosine kinase p56lck, normally associated with the cellular membrane, appeared to be linked to the RER and bound to the CD4- gp160 proteins.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:Transcriptional and post-transcriptional mechanisms are involved in the absence of CD4 surface expression in two HIV-1 chronically infected T cell lines. 810 73
We have compared cytoplasmic CD4 mRNA accumulation, CD4 biosynthesis and steady-state levels of both
CD4 protein
and mRNA in a variety of clonal derivatives of U-937 cells, chronically infected with human immunodeficiency virus type 1 IIIB (HIV-1), that express various cellular and viral phenotypes. These phenotypes included defective processing of either gp160 or Gag-Pol, viruses with severely limited host-range, and inability to generate viral products. All clones, with the exception of the one that failed to generate viral mRNA and proteins, did not express cell surface CD4. Furthermore, each of these clones had steady-state levels of CD4 mRNA which were either equivalent to or higher than those of the parental U-937 cell line. Patterns of cytoplasmic CD4 mRNA levels resembled those of total RNA, suggesting that CD4 mRNA transport from the nucleus to the cytoplasm was unaffected by
HIV
-1 infection. Profiles of steady-state levels of the
CD4 protein
resembled those of CD4 mRNA in the UHC clones, but CD4 biosynthesis was reduced in all clones with the exception of that which failed to express viral products. This report is the first demonstration that steady-state CD4 biosynthesis is reduced in
HIV
-1-infected cells. In general, there was a good correlation between high levels of expression of gp160 and reduced CD4 biosynthesis. These results suggest that
HIV
-1 env gene products may contribute to the observed reduction in levels of CD4 biosynthesis.
...
PMID:Correlation between high level gp160 expression and reduced CD4 biosynthesis in clonal derivatives of human immunodeficiency virus type 1-infected U-937 cells. 815 1
CD4 is a member of the Ig gene super family expressed on the surface of many thymocytes and of a subset of T lymphocytes. Human CD4 is the receptor for
HIV
envelope glycoprotein gp120. Human and mouse CD4 transcripts are expressed in human and mouse central nervous system (CNS), but no corresponding proteins have been reported yet. We have analyzed mRNA expression and carried out immunological experiments on adult mouse brain with probes specific for the long and short CD4 transcripts and with antibodies monospecific for mouse CD4. The main result of these experiments is that the full length CD4 transcript and the
CD4 protein
are expressed coordinately in neurons throughout the adult mouse brain. CD4 immunoreactivity is also present in brain small vessel walls, ependymal cells, and choroid plexus. The brain mouse
CD4 protein
is indistinguishable from the thymus protein. In addition, we show that neuronal cells in primary cultures from human fetal CNS are immunoreactive to human CD4 mAbs.
...
PMID:CD4 expression in neurons of the central nervous system. 818 89
The mechanisms of
HIV infection
of target cells are described. Particularly the role of three types of cell receptors, which participate in the process of virus-cell interactions:
CD4 protein
, receptor for Fc fragment of antibodies and complement receptors are discussed. The variability of the virus variants, which determines the virus tropism and cytotoxic properties towards specific cell types is stressed.
...
PMID:[Mechanism of cell infection with HIV]. 823 49
A large-scale immunoaffinity (IA) purification process was developed for the isolation of recombinant soluble antigen CD4 (sCD4) from Escherichia coli fermentations. The monoclonal antibody used for IA purification of sCD4 recognized a conformation-dependent epitope on the surface of domain 1 of CD4. IA chromatography was used to purify both sCD4-183, consisting of the N-terminal 183 amino acids of human CD4, and sCD4-PE40, a fusion protein consisting of the N-terminal 178 amino acids of CD4 and amino acids 1-3 and 253-613 of Pseudomonas exotoxin A (PE40). sCD4-183 was purified from E. coli cell pellets using cell disruption, protein solubilization, oxidation, Q-Sepharose anion-exchange and IA chromatography steps. sCD4-PE40 was purified from cell pellets using cell disruption, protein solubilization, oxidation, Cu(2+)-immobilized metal-affinity chromatography, anion-exchange and IA chromatography steps. The IA-purified sCD4 analogues demonstrated the correct apparent molecular masses on SDS/PAGE. The immobilized monoclonal antibody appeared to select for correctly folded
CD4 protein
, since sCD4-183 and sCD4-PE40 purified by the IA method bound human-immunodeficiency-virus glycoprotein gp120 (
HIV
gp120) in vitro. sCD4-PE40 purified by IA chromatography also inhibited protein synthesis in CV-1 cells expressing
HIV
gp120/160 at the cell surface. Relatively high recoveries of sCD4-183 and sCD4-PE40 were observed in the IA step of the purification process (71 and 79% recovery respectively). The results demonstrate that immobilized monoclonal antibodies directed against conformational epitopes may be used for rapid purification of gram amounts of correctly folded protein from mixtures of oxidized E. coli proteins.
...
PMID:Large-scale immunoaffinity purification of recombinant soluble human antigen CD4 from Escherichia coli cells. 829 11
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