UMLS:C0085110 - FACTA Search

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Query: UMLS:C0085110 (SCID)
11,041 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

SCID-hu mice were constructed with human fetal liver and human fetal thymus, obtained from the same or from different donors. Hematopoietic cells originating from the fetal liver migrate to the fetal thymus and give rise to medullary and cortico-medullary macrophages and dendritic cells. Thymic epithelial cells remain of thymic donor origin. The fetal liver donor derived stem cells differentiate in this environment into double positive and finally single positive CD4 or CD8 expressing T cells. The TCR V beta repertoire generated at the double positive stage is identical to that generated in the thymus of the donor. Thymic selection induces changes in V beta usage comparable to those previously reported for normal human thymus. Single-positive, functionally mature, and mainly TCR alpha beta+ T cells reach the peripheral blood compartment of the SCID-hu mice. These T cells are able of specific proliferative and cytotoxic alloresponses. No autoreactivity is observed. Single positive T cells which differentiated in the thymus of SCID-hu mice transplanted with liver and thymus of two different donors are tolerant to the HLA antigens of both donors. By limiting dilution analysis, it could be demonstrated that tolerance to the fetal liver donor is due to clonal deletion whereas tolerance to the fetal thymus donor is not. These data show that human T cell development is progressing normally in these mice and gives rise to a mature, functional and polyclonal T cell repertoire which is comparable to that observed in normal individuals.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:SCID-hu mice as a model to study tolerance after fetal stem cell transplantation. 135 29

Administration of monoclonal antibodies (mAb) to CD3 elicits an immune response to the mAb and an acute toxic syndrome that has been attributed to the release of cytokines from activated T cells. To clarify the cellular basis for these effects, we used anti-lymphocyte mAb to deplete selected T-cell subsets from BALB/c mice prior to administration of anti-CD3. In our first series of experiments, anti-CD4 repeatedly blocked the immune response to anti-CD3, but did not prevent severe toxicity. This observation suggested that other T-cell subsets might contribute to anti-CD3 induced toxicity. Therefore, we treated mice with mAb to CD8 as well as mAb to CD4 prior to administration of anti-CD3. Despite depletion of > 95% of CD8+ and CD4+ T cells, toxicity was not suppressed. This finding cast doubt on the belief that toxicity is due to activation of either CD4+ or CD8+ T cells by anti-CD3. Therefore, we assessed the role of thymocytes (which are not deleted by the mAb) and gamma delta + T cells. Thymectomy did not prevent toxicity in CD4/CD8-depleted mice, demonstrating that thymocytes are not responsible for toxicity. Anti-alpha beta TCR mAb produced a toxic reaction similar to anti-CD3 whereas anti-gamma delta TCR mAb did not, suggesting that gamma delta+ T cells are not the source of toxic cytokines. In addition, we proved that anti-CD3-induced toxicity was not due to direct effects on macrophages or to other nonspecific factors associated with the hamster mAb. These findings imply that a few residual mature T cells in mice treated with mAb to CD4 and CD8 are sufficient for the full expression of the anti-CD3-induced toxic syndrome. To confirm that both CD4+ and CD8+ T cells can mediate toxicity, we showed that:(i) SCID mice, which normally do not develop anti-CD3-induced toxicity, can be rendered susceptible by reconstitution with purified CD4+ T cells; and (ii) CD4-knockout mice that lack CD4+ T cells but have normal CD8+ T cells are susceptible to anti-CD3-induced toxicity. These findings establish that both CD4+ and CD8+ cells contribute to the toxic effects of anti-CD3, and that relatively few cells are required to mediate the full effect.
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PMID:The role of T-cell subsets in the response to anti-CD3 monoclonal antibodies. 136 Mar 41

The diagnosis severe combined immunodeficiency was made in a male infant at the age of 18 wk. Known causes of severe combined immunodeficiency were excluded. The activity of total 5'-nucleotidase (E.C. 3.1.3.5) in the PBMC was found to be strongly decreased. Analysis of the peripheral blood revealed a lymphocytosis, mainly of CD8+ T cells. These lymphocytes expressed high levels of CD29, CD38, CD45RA, and MHC class II molecules but no CD25, CD26, CD27, or CD28 Ag. The cells proliferated poorly to all T cell stimulants tested and no helper activity for IgM secretion could be induced. In contrast to the poor proliferative responses, high levels of TCR-induced cytolytic activity, without lymphokine-activated killer-cell outgrowth, were induced by CD3 mAb. Analysis of TCR-beta gene rearrangements indicated that two clonal populations constituted the majority of the E-rosette+ peripheral blood fraction. Moreover, the vast majority of the CD8+ cells were found to react with a mAb to V beta 3. Polymerase chain reaction on cDNA from peripheral blood cells with primers that amplify TCR V beta elements showed, in agreement with the fluorescence data, an overrepresentation of V beta 3 but absence of usage of approximately 50% of the other V beta elements. Thus, in a severe combined immunodeficiency patient, CD8+ T cells with limited T cell receptor usage and restricted effector functions were found. The observed alterations in the 5'-nucleotidase levels may be secondary to the outgrowth of this population.
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PMID:A combined immunodeficiency with oligoclonal CD8+, V beta 3-expressing, cytotoxic T lymphocytes in the peripheral blood. 143 Nov 14

During studies on gene expression in the kidney, we unexpectedly observed that murine kidney expresses a truncated form of TCR-alpha mRNA (1.3-1.4 kb). This transcript was not associated with the presence of complete TCR-alpha mRNA (1.7 kb) or detectable TCR-beta or -delta transcripts, thus indicating that the truncated TCR-alpha mRNA could not be attributed to blood contamination of the kidney RNA preparation. The truncated TCR-alpha message appeared to contain at least the C alpha region, as suggested by hybridization with an intra-C alpha 24 oligonucleotide probe, by amplification of the C alpha region with the polymerase chain reaction from total kidney mRNA, and by sequencing of, and hybridization with, the amplified products. In situ hybridization of kidney sections indicated that the transcript was expressed in interstitial cells. Northern blots of cortex and medulla RNA showed that the cells expressing the truncated TCR-alpha mRNA were predominantly located in the medulla. To investigate the possibility that the transcript was not produced by T cells or NK cells, fractionation of renal cell suspensions were performed. The truncated TCR-alpha mRNA was detected in a fraction containing large (low buoyant density) cells in which no expression of CD3, Thy 1, or NK-1.1 was detected, indicating that these cells are not mature T cells, do not express a functional TCR, and are not NK cells. The cells expressing the truncated TCR-alpha mRNA were radiosensitive, and were not thymus dependent, because this transcript was as abundant in nude mice as in normal mice. The transcript was not detected in bone marrow. Expression of the truncated TCR-alpha mRNA was not dependent on an intact recombinase activity as its expression was not affected by the severe combined immunodeficiency mutation. Our results show that murine kidney contains a population of radiosensitive thymus-independent large interstitial cells that express a truncated TCR-alpha mRNA that is not associated with surface expression of functional TCR. These cells may have attempted to rearrange TCR-alpha genes, suggesting that they may be related to the lymphoid lineage.
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PMID:Thymus-independent expression of a truncated T cell receptor-alpha mRNA in murine kidney. 153 Aug 65

In order to elucidate the role of HLA class II molecules in generation of self-nonself discrimination of human T cells, we have analyzed T cell functions in an HLA class II-negative severe combined immunodeficiency patient. Patient PBL expressed no HLA-DR, -DQ, and -DP antigens as judged by immunofluorescence using mAb, and failed to elicit MLR responses from unrelated controls. Patient PBL contained mature T cells (CD3+ TCR alpha beta+) of the CD4 and CD8 subset, showing an apparently normal TCR diversity, as judged by use of anti-V beta 5, -V beta 6, -V beta 8, -V beta 12, and -V alpha 2 mAb. Patient PBL proliferated in response to anti-TCR/CD3 mAb and PHA, but not against recall Ag, despite immunization, and mounted proliferative, but not cytotoxic, responses against allogeneic cells. To find out whether the MLR responses were a consequence of self-nonself discrimination, the patient HLA-DR and -DQ genotype was determined using sequence specific oligonucleotide probes, revealing DRB1*0401 DQB1*0301 alleles, and MLR were set up against a panel of HLA-DR4 DQw3 stimulators matched or mismatched for DRB1*0401 DQB1*0301. Results showed no MLR against DRB1*0401 DQB1*0301 stimulators, but significant responses against stimulators expressing DRB1*0408 and/or DQB1*0302 alleles. Moreover, the DRB1*0401 DQB1*0301 APC reconstituted proliferation of patient PBL against PPD; this response was completely blocked by an anti-IL-2R (p55) mAb and partially also by anti-HLA-DR and -DQ mAb, indicating recognition of these molecules as restriction element presenting Ag--i.e., as self--by patient T cells. In conclusion, the novel demonstration of self-nonself discrimination by T cells from an HLA class II-negative SCID patient suggests that it may not be absolutely dependent on regular HLA class II expression within the differentiation environment in humans.
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PMID:Allorecognition and T cell repertoire selection in severe combined immunodeficiency lacking HLA class II antigens. 153 39

The diagnosis of severe combined immunodeficiency complicated by chronic graft-vs-host disease affecting liver and skin in association with engraftment of maternal T cells was established in a 5-mo-old boy. Detailed immunologic and molecular genetic studies were performed because a unique T cell phenotype was identified on initial evaluation. A major proportion of the patient's peripheral T cells expressed a CD8+ and TCR-gamma/delta+ phenotype while CD4+ T cells were virtually absent. Southern blot analysis of cell subpopulations isolated by fluorescence activated cell sorting indicated that approximately 50% of CD8+/TCR-gamma/delta+ cells were clonally related. Immunophenotyping and -genotyping also identified a clonal TCR-gamma/delta+ cell population in the child's mother. Clonal identity of these T cell populations in mother and child was demonstrated by studies using a clonspecific TCR-delta probe generated by polymerase chain reaction as well DNA sequence analysis. HLA typing and DNA fingerprinting confirmed that the child had acquired this clone diaplacentally from the mother. According to immunohistology and DNA analysis the clone was found to be virtually absent in the liver tissue suggesting that this clonal T cell population plays a minor role, if any, in the pathogenesis of the liver abnormalities in the patient. In the mother the CD8+/TCR-gamma/delta+ clone spontaneously declined to a level around 1% of PBMC several months later and has remained at this level since. We conclude that 1) a clonal expansion of TCR-gamma/delta T cells, triggered by yet unknown stimuli, may occur in otherwise healthy individuals, 2) respective T cells are able to cross the placental barrier, and 3) in an microenvironment precluding rejection, i.e., in severely immunocompromised patients, these cells may persist and even represent a significant proportion of circulating T cells.
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PMID:Expansion of a maternally derived monoclonal T cell population with CD3+/CD8+/T cell receptor-gamma/delta+ phenotype in a child with severe combined immunodeficiency. 165

Severe combined immunodeficiency (SCID) mice can be transplanted successfully with human fetal liver and thymus (SCID-hu mice). Precursor cells derived from the fetal liver differentiate in the thymus and migrate into the blood as mature T cells. In the present paper, the peripheral T cell compartment of such mice was studied. Peripheral WBC were activated by PHA and cultured in the presence of irradiated human feeder cells. The resultant cell population consisted exclusively of human CD1- CD2+ CD3+ CD7+ T lymphocytes; up to 4% of the T cells expressed the TCR gamma delta, whereas 95 to 100% were TCR alpha beta +. The CD4bright (42 to 66%) and CD8bright (30 to 54%) populations coexpressed variable but low levels of CD8 and CD4, respectively. The T cell cultures from the SCID-hu mice did not display reactivity towards the autologous human EBV-transformed B cell lines (B-LCL). On the other hand, these human T cells proliferated and were cytotoxic against allogeneic human B-LCL. T cell clones were established from cultured SCID-hu T cells. All T cell clones were TCR alpha beta + CD3+ CD2+; 61% of the clones were CD4+ CD8-, 27% were CD8+ CD4-, 11% were CD8+ CD4lo, and 2% were CD4+ CD8lo. None of these clones recognized the autologous B-LCL established from the fetal human donor. Fourteen of 100 T cell clones had specific alloreactivity, as tested on a panel of five B-LCL. Of these 14, two CD8+ CD4lo and two CD8+ CD4- clones were cytotoxic and did not proliferate in response to specific stimulator cells. Furthermore, two CD4+ CD8lo and eight CD4+ CD8- clones proliferated specifically in response to alloantigens. In conclusion, the peripheral human T cells of SCID-hu animals are functional and their TCR repertoire is polyclonal, alloreactive, and devoid of self-reactive cells. Therefore, the SCID-hu mouse can be a suitable model for the study of alloreactivity and allotolerance in vivo, as well as for the study of negative selection in the human thymus.
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PMID:Clonal analysis of the peripheral T cell compartment of the SCID-hu mouse. 167 54

Circulating maternal T lymphocytes were noted in the peripheral blood of six patients with severe combined immunodeficiency. Phenotypical analyses revealed the presence of both CD4 and CD8 subsets in some but not all cases. The maternal T cells could be stimulated by anti-TCR/CD3 mAb +/- rIL-2, but were virtually silent in the MLR and against the recall Ag purified protein derivative of tuberculin and tetanus toxoid, even in immunized patients engrafted with T cells from a responding mother. Using a panel of mAb against TCR V region gene encoded epitopes including V beta 5, V beta 6, V beta 8, V beta 12, and V alpha 2, we show that maternal T cells displayed a profoundly reduced TCR diversity, characterized by a lack of one or even several TCR V subsets in all six cases and a dramatic (5- to 25-fold) expansion of other TCR V subsets in three cases. In one patient analyzed, limited TCR diversity was also seen in T cells cultured from bone marrow and skin; restimulation experiments of these cells against cells expressing host MHC Ag were unsuccessful, as were attempts to exclusively allocate anti-host proliferative responses of maternal control T cells to the TCR V subsets that had undergone expansion in vivo. We conclude that a severely reduced TCR diversity is a common feature of maternal T cells engrafted in severe combined immunodeficiency patients. These novel findings provide a structural basis to understand the failure of these cells to protect the host from infections and may also help to understand their relative inefficiency to induce lethal, multi-organ, graft vs host disease. Moreover, as an experiment of nature, the reported phenomenon clearly illustrates the functional consequences in vivo of an insufficient TCR diversity.
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PMID:Limited T cell receptor diversity of transplacentally acquired maternal T cells in severe combined immunodeficiency. 171 Feb 42

Leishmania major disseminates in genetically susceptible BALB/c mice to cause fatal disease. Progressive infection has been linked to the failure of parasite-specific Th1, IFN-gamma-producing, CD4+ T lymphocytes to expand and direct macrophage activation and control of intracellular parasitism. In contrast, Th2 CD4+ cell expansion accompanies disease progression. Immunomodulation using CD4 cell depletion at the time of infection results in control of infection and Th1 CD4+ cell expansion. A Th1-like cell line, H1A, was established from the draining lymph nodes of an anti-CD4-pretreated BALB/c mouse infected with L. major, H1A was CD4, TCR(+)-alpha/beta, and released IL-2 and IFN-gamma in response to parasite Ag. A Th2-like cell line, U1A, was established from the lymph node cells of an infected BALB/c mouse that was also CD4, TCR(+)-alpha/beta but released IL-4 and IL-5 after stimulation. Mice with severe combined immunodeficiency were reconstituted with H1A and U1A before infection with L. major. Non-reconstituted mice were unable to restrict parasite growth. Mice reconstituted with H1A healed infection, whereas mice reconstituted with U1A suffered exacerbation of disease. Analysis of spleen cells by flow cytometry confirmed the reconstitution of CD4+ cells in both instances, and stimulation with mitogen established that the lymphokine profile of the donor cells had been maintained during 6 to 8 wk of infection. Histologic analysis of the lesions confirmed migration of donated cells to sites of infection. Neutralization of IFN-gamma in H1A-reconstituted mice and IL-4 in U1A-reconstituted mice reversed the disease phenotype mediated by the two cell lines. These data demonstrate the capacity of CD4+ T cells alone to modulate both positively and negatively the course of leishmaniasis in a lymphokine-dependent manner.
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PMID:Reconstitution of Leishmania immunity in severe combined immunodeficient mice using Th1- and Th2-like cell lines. 183 30

To test whether T and B cell differentiation can proceed across species barriers, rat fetal liver (FL) cells were used to reconstitute SCID mice. Provided that the hosts were conditioned with light irradiation, i.v. injection of FL cells caused near-complete repopulation with rat-derived lymphohematopoietic cells, including myeloid and erythroid cells, Ia+ cells of the macrophage/dendritic cell lineages, and mature T and B cells. In keeping with the known hypersensitivity of SCID cells to irradiation, host hematopoietic cells in the chimeras were almost undetectable, even with hosts exposed to as low as 250 rad. In the case of T cells, the distribution of immature and mature cells in the thymus of rat FL----SCID chimeras closely resembled the normal rat thymus in terms of architecture and expression of CD4, CD8, and alpha beta-TCR molecules. Thymopoiesis was followed by the appearance of large numbers of typical rat CD4+ and CD8+ cells in spleen and lymph nodes. These organs also contained substantial numbers of rat B (mu+) cells. The data thus indicate that the xenogeneic environment of SCID mice is fully capable of sustained de novo differentiation of rat T and B cells.
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PMID:Long-term xenogeneic chimeras. Full differentiation of rat T and B cells in SCID mice. 191 50

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