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Query: UMLS:C0024530 (
malaria
)
44,886
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Localization of human MHC class I-restricted T cell epitopes in the circumsporozoite (CS) protein of the human parasite Plasmodium falciparum is an important objective in the development of antimalarial vaccines. To this purpose, we synthesized a series of overlapping synthetic 20-mer peptides, spanning the entire sequence of the 7G8 CS molecule except for the central repeat B cell domain. The P.f.CS peptides were first tested for their ability to bind to the human MHC class I HLA-A2.1 molecule on T2, a human cell line. Subsequently, the use of a series of shorter peptide analogues allowed us to determine the optimal A2.1 binding sequence present in several of the 20-mers. Binding P.f.CS peptides were further tested for their capacity to activate PBL from HLA-A2.1+ immune donors living in a
malaria
-endemic area. Specific IFN-gamma production was detected in the supernatant of cultures of PBL from exposed individuals. Cytotoxic T cell lines and clones were derived from the PBL of one responder, and their activity was shown to be HLA-A2.1-restricted and specific for the peptide 334-342 of the CS protein. In addition, double transgenic HLA-A2.1 x human
beta 2-microglobulin
mice were immunized with peptide 1-10 of the CS protein. T cells derived from immune lymph nodes displayed a peptide-specific HLA-A2.1-restricted cytolytic activity after one in vitro stimulation.
...
PMID:Localization of HLA-A2.1-restricted T cell epitopes in the circumsporozoite protein of Plasmodium falciparum. 753 17
Splenic gamma delta T cells (CD4-, CD8-) increased more than 10-fold upon resolution of either Plasmodium chabaudi adami or P.c. chabaudi infections in C57BL/6 mice compared to controls. Similarly, a 10- to 20-fold expansion of the gamma delta T cell population was observed in
beta 2-microglobulin
deficient (beta 2-m0/0) mice that had resolved P.c. adami, P.c. chabaudi or P. yoelii yoelii infections. In contrast, increases in the number of splenic alpha beta T cells in these infected mice were only two to three-fold indicating a differential expansion of the gamma delta T cell subset during
malaria
. Because nucleated cells of beta 2-m0/0 mice lack surface expression of major histocompatibility complex class I and class Ib glycoproteins, our findings suggest that antigen presentation by these glycoproteins is not necessary for the increasing number of gamma delta T cells. Our observation that after resolution of P.c. adami
malaria
, C57BL/6 mice depleted of CD8+ cells by monoclonal antibody treatment had lower numbers of gamma delta T cells than untreated controls suggests that the demonstrated lack of CD8+ cells in beta 2-m0/0 mice does not contribute to the expansion of the gamma delta T cell population during non-lethal
malaria
.
...
PMID:Expansion of the CD4-, CD8- gamma delta T cell subset in the spleens of mice during non-lethal blood-stage malaria. 834 45
We utilized a definitive model of CD8+ T cell deficiency, the
beta 2-microglobulin
-deficient (beta 2-m0/0) mouse, to determine whether CD8+ T cells are required in the resolution of blood-stage
malaria
. In a parallel experiment, C57Bl/6 mice treated with anti-CD8 mAb showed significantly higher levels of parasitemia than untreated C57Bl/6 control mice at several points during the infection. This finding suggests some role for CD8+ cells in containing
malaria
. However, the beta 2-m0/0 mice, which are genetically blocked from expressing MHC class I or class Ib glycoproteins and therefore have < 2.5% of the normal number of CD8+ T cells, nevertheless resolved infections with three virulence variants of murine Plasmodium. The resolution of Plasmodium chabaudi adami, Plasmodium yoelii yoelii 17X, and Plasmodium chabaudi chabaudi AS infections by beta 2-m0/0 mice in the virtual absence of CD8+ cells demonstrates that these cells are not required to suppress murine
malaria
and that the suppression mechanism is not MHC class I restricted. The similarity of the time-course for resolution of infection in beta 2-m0/0 and intact control mice with all three subspecies of Plasmodium further supports the lack of a requirement for CD8+ T cells in the suppression of malarial parasitemia.
...
PMID:Resolution of blood-stage malarial infections in CD8+ cell-deficient beta 2-m0/0 mice. 837 74
T lymphocytes are believed to play a major role in protection against
malaria
. Previous experiments using in vivo depletion of CD8+ T cells, reconstitution with CD8+ T splenic cells, and adoptive transfer of CD8+ CTL clones demonstrated that protection against the exoerythrocytic stage of the murine strain, Plasmodium berghei
malaria
, was CD8+ T cell-dependent. Despite evidence for the critical role of CD8+ CTL, neither the cellular nor the molecular requirements for CD8+ T cell induction or for recognition of
malaria
Ags are known. In this study, we wished to define the role of CD8+ T cells and MHC class I molecules by using the P. berghei
malaria
attenuated sporozoites (SPZ) protection model in
beta 2-microglobulin
(beta 2m) knockout (-/-) mice. In contrast to observations that beta 2m-/- mice are resistant to many infectious diseases by compensatory mechanisms involving non-class I-restricted T cells, we found that beta 2m-/- mice failed to be protected against P. berghei SPZ, although immunization with attenuated SPZ induced production of IL-2, INF-gamma, anti-circumsporozoite protein IgG, and proliferative T cells. The lack of compensatory mechanisms involving non-CD8+ T cells was particularly evident in the failure to adoptively transfer protective immunity with wild-type SPZ-immune splenic T cells. From our data it can be concluded that CD8+ T cells induced during immunization with attenuated SPZ must recognize liver-expressed Ags presented by class I molecules to engage effectively in a response leading to destruction of the
malaria
parasites.
...
PMID:MHC class I-dependent presentation of exoerythrocytic antigens to CD8+ T lymphocytes is required for protective immunity against Plasmodium berghei. 861 63
Co-infections such as Mycobacterium tuberculosis (TB) and Pneumocystis pneumonia may affect the progress of HIV infection and speed the onset of death. As
malaria
and syphilis are both endemic in West Africa we examined their effects on HIV-2 infection, for these may also accelerate the progress of disease. A community-based case-control study was undertaken in a rural village in Guinea-Bissau, West Africa. One hundred and fifty asymptomatic subjects seropositive for HIV-2 and 154 age- and sex-matched controls were enrolled. Venous blood samples taken into EDTA were stained within six hours of collection with CD4 and CD8 monoclonal antibodies and processed by Q-Prep machine in the field. The stained cells were then transported on ice by road and analysed by FACS-can at the base laboratory in The Gambia within a week. The mean CD4% was significantly lower and geometric mean neopterin and
beta 2-microglobulin
levels were significantly higher in the HIV-2-infected subjects than in the controls (P < 0.01 for all cases versus all controls). The mean CD4% was lower and
beta 2-microglobulin
level was higher in both HIV-2 and control subjects with active or past syphilis when compared with subjects with no syphilis; however, syphilis did not have a marked effect on plasma neopterin level.
Malaria
infection raised neopterin levels, but had little effect on CD4%. Overall multiple regression analysis allowing for HIV-2 infection and other variables showed that syphilis lowered CD4% (P = 0.01) and raised
beta 2-microglobulin
levels (P = 0.05) and
malaria
raised neopterin levels (P = 0.05). The conclusions are that HIV-2 infection is associated with lower CD4% and higher neopterin and
beta 2-microglobulin
levels than controls, and co-infection with syphilis is associated with a further lowering of CD4%, suggesting a worse suppression of the immune system. Co-infection with
malaria
is associated with a modest immune disturbance.
...
PMID:Immune stimulation by syphilis and malaria in HIV-2-infected and uninfected villagers in West Africa. 962 34
