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Query: UMLS:C0029713 (
immaturity
)
4,335
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Deficient responses by NK cells may contribute to the susceptibility of human newborns to severe HSV infections. Furthermore, HSV disseminates widely during neonatal infection and may also infect and interfere with the function of blood mononuclear cells (MNC). To determine whether the function of newborn NK cells would be affected by contact with HSV, and whether newborn NK cells might be permissive for HSV replication, newborn MNC were cultured with HSV in vitro for 3 days. Before culture, the intracellular calcium mobilization in newborn NK cells induced by mAb to CD2 and CD16 did not differ from that of adult NK cells. This result argues against
immaturity
of an early NK cell activation event in human newborns. After culture with HSV the Ca2+ flux response was unaffected by lysis of K562 targets by newborn NK cells and NK-dependent suppression of HSV replication in fibroblasts were preserved or increased. Incorporation of thymidine by NKH-1 cells following stimulation with
PHA
and IL-2 was not suppressed. NK cells recovered from these cultures did not contain infectious HSV and synthesis of HSV-specific proteins was not detected by immunoprecipitation although HSV genome was detected by DNA hybridization. Our results extend the in vitro model stimulation systems in which newborn NK cells respond positively to include triggering through the CD2 Ag, cross-linking of cell surface CD 16 Ag and response to a pathogen, HSV.
...
PMID:Human newborn natural killer cell responses to activation by monoclonal antibodies. Effect of culture with herpes simplex virus. 253 66
Recipients of allogeneic bone marrow transplants are characterized by an immunodeficiency of varying intensity and duration. We have previously demonstrated the presence of in vivo activated suppressor T lymphocytes in immunodeficient patients with chronic graft-versus-host disease. To determine the basis of the immunodeficiency of transplant recipients early after transplantation, the lymphocytes of transplant recipients were analyzed phenotypically by E-rosette formation and staining with monoclonal antibodies (OKT-3, -6, and -8) and functionally by their blastogenic response to mitogens. Only 15% of transplant recipients' assays 0-3 months and 16% of assays 3-12 months following transplant were in the normal range. Transplant recipients during the first year after transplantation were characterized by an increased percentage (57%) of patients with a normal percentage of E-rosette-forming cells but reduced
PHA
responsiveness. In vitro coculture experiments demonstrated that their lack of
PHA
responsiveness was not due to the presence of in vivo activated suppressor cells or a decrease in mitogen-presenting cells. Staining with monoclonal antibodies revealed that the T lymphocytes from the majority of recipients at 0-3 months following transplantation contained a percentage of OKT8-positive cells greater than or equal to the percentage of OKT3-positive cells. This pattern (OKT8 greater than or equal to OKT3) was not found in the peripheral blood T lymphocytes of normal people but was found in 13 of 15 thymuses. Monoclonal staining with OKT6, a thymocyte-specific antibody, revealed positive staining of more than 10% of the peripheral blood leukocytes in the majority of recipients 0-3 months following transplantation, compared with only a few normals. We concluded that the circulating T lymphocytes of transplant recipients are phenotypically and functionally immature, and that their relative
immaturity
contributes to the transplant recipients' immunodeficiency.
...
PMID:Immature T lymphocytes in the peripheral blood of bone marrow transplant recipients. 636 45
IgG, IgA, and IgE production by newborn B cells is limited both in vivo and in vitro in various activation conditions, whereas IgM production is readily detectable. It has been suggested that the Ig heavy chain switch inability could be the consequence of T and B cell
immaturity
. As the interaction between CD40 (expressed on B cells) and its ligand CD40-L (expressed on activated T cells) triggers a key signal required for isotype switching, we studied the expression and function of these two components in normal fetuses, newborns, and infants, compared with adults. CD40-L expression was not inducible in 28 of 30 specimens of newborn cord-blood T cells following incubation with PMA and ionomycin, whereas activation markers such as CD69 were inducible. CD40-L expression was triggered by activation of T cells from infants > 3 wk of age. Surprisingly, T cells from 19- to 28-wk-old fetuses also expressed CD40-L following activation. CD40-L expression on newborn T lymphocytes was induced on T cell lines generated in the presence of
PHA
and maintained with IL-2 following further stimulation with PMA and ionomycin. CD40-L mRNA transcripts and intracytoplasmic protein expression following activation of newborn T cells were strongly decreased, leading to undetectable protein membrane detection. These results point to a possible transcriptional down-regulation of CD40-L expression by neonatal T lymphocytes. In addition, fetal and cord-blood B cells were poorly able to switch to IgG or IgA by stimulation with CD40 agonists (Ab or soluble CD40-L) in the presence of IL-4 or IL-10 as also detected with surface IgD+ adult B cells. Both phenomena could contribute to the neonatal Ig switch inability, although distinct underlying regulatory mechanisms are probably involved, as suggested by different in vivo time courses.
...
PMID:Undetectable CD40 ligand expression on T cells and low B cell responses to CD40 binding agonists in human newborns. 753 Jul 39
Chickens are highly susceptible to infection by opportunistic pathogens during the first few days after hatching. This observation has generally been attributed to an
immaturity
of the immune system; however, the mechanisms responsible are not known. This study investigated the ability of T cells from chickens of various ages to respond to immune stimulation. Splenic T cells were cultured in vitro and stimulated with various mitogens including Con A,
PHA
and monoclonal anti-CD3 antibody. T cells obtained from adult chickens proliferated extensively and produced high levels of IL-2, haemopoietic growth factors and IFN following stimulation. In contrast, it was found that T cells from 1 day old chickens failed to proliferate and secrete cytokines when similarly cultured. Reactivity to mitogens gradually developed between days 2 and 4, and by 1 week of age the level of responsiveness was equivalent to that observed with T cells obtained from adult chickens. Whereas T cells from 1 day old chicks were found to be phenotypically mature and capable of binding mitogens as effectively as T cells from adult birds, they were functionally immature as assessed by their inability to proliferate or produce cytokines following immune stimulation. In addition, cells present in the spleen of 1 day old chicks constitutively produced a soluble inhibitor that prevented the proliferation of stimulated adult T cells. The production of inhibitor decreased dramatically by the second day post-hatching which coincided with an enhanced ability of T cells to respond to immune stimulation.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:Development of T cell immune responsiveness in the chicken. 820 Jun 87
Functional
immaturity
of neonatal T cells is related to their immature phenotype, with the majority of neonatal T cells of naive (CD45RA+) T cells. The progression of T cells from naive cells to effector cells is dependent on the survival of Ag-specific T cells and their resistance to apoptosis. In this study, we showed for the first time that insulin-like growth factor 1 (IGF-1) converted cord blood CD45RA+ T cells to CD45RO+ T cells and inhibited cord blood T cell apoptosis. We found cord blood T cells stimulated with
PHA
would result in gradual loss of CD45RA and gain of CD45RO expression. IGF-1 further increased the loss of CD45RA and enhanced CD45RO expression in
PHA
-stimulated cord blood T cells. In addition, IGF-1 prevented cord blood T cells from spontaneous apoptosis through a mechanism other than Fas/FasL. In
PHA
-activated cord blood T cells, IGF-1 prevented both naive (CD45RA+) and memory/mature (CD45RO+) T cells from apoptosis. Moreover, cord blood T cells cultured with IGF-1 and
PHA
had a higher resistance to anti-Fas-induced apoptosis as compared with
PHA
-activated cord blood T cells. IGF-1 also significantly inhibited
PHA
-induced Fas expression on cord blood T cells. These results demonstrate that IGF-1 promotes the maturation and maintains the survival of cord blood T cells. Its antiapoptotic effect in
PHA
-activated cord blood T cells may be mediated through the down-regulation of Fas expression.
...
PMID:Insulin-like growth factor 1 promotes cord blood T cell maturation and inhibits its spontaneous and phytohemagglutinin-induced apoptosis through different mechanisms. 1090 34
