Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Query: EC:2.1.1.69 (
BMT
)
2,655
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Specific tolerance can be induced in animals by transplanting hemopoietic cells across concordant species barriers. Despite the fact that the rat-mouse species combination is considered concordant, we have recently demonstrated that normal murine serum contains natural antibodies (nAb), predominantly of the IgM and
IgG3
subclasses, with markedly greater binding to rat bone marrow cells (BMC) than to rat splenocytes or thymocytes. Since much greater numbers of rat BMC than of allogeneic murine BMC are required to achieve engraftment in mice, we considered the possibility that these nAbs might be responsible, and that the increased numbers of BMC might be required to absorb these nAb. To evaluate the effect of these nAb on engraftment of rat BMC in mice, we have now performed adoptive transfer studies using T and B cell-deficient severe combined immunodeficiency disease (SCID) mice as recipients. Administration of as few as 5 x 10(5) T cell-depleted rat BMC led to induction of stable xenochimerism in SCID mice conditioned with 4-Gy whole body irradiation. Rat T cells developed after a delay of several weeks, and conferred the ability to reject non-donor-type rat skin grafts, whereas donor-type grafts were accepted. Adoptive transfer of 4 ml of normal BALB/c serum led to a marked reduction in the level of rat chimerism in SCID recipients of 2 x 10(6) F344 BMC. The ability of sera to inhibit engraftment of rat BMC correlated with their cytotoxic nAb content, and the inhibitory effect of highly cytotoxic sera could be overcome by administration of large numbers of rat BMC. Thus, normal mouse serum has a limited ability to hinder engraftment of rat BMC, and this degree of resistance can be overcome by adsorption when large numbers of BMC are administered. Eliminating nAb from serum may be more difficult in discordant species combinations in recipients with functional B cells, but may likewise permit the use of
BMT
as a means of inducing transplantation tolerance.
...
PMID:Natural antibodies can inhibit bone marrow engraftment in the rat----mouse species combination. 175 89
Antibodies against T cells are widely used as immunosuppressive agents in clinical therapy. As effector functions of chimeric or humanized anti-T cell antibodies cannot be predicted in vitro, we compared T cell-depleting effects of human isotypes in vivo with their immunosuppressive consequences in a mouse
BMT
model. This system is based on chimeric antibodies with a mouse pan T cell specificity and human constant regions. To secure optimal immunosuppression, the specificity for Thy-1.2--one of the best-characterized T cell antigens--was selected, as Thy-1.2-specific antibodies prevent graft-versus-host disease in fully mismatched mice. Chimeric mouse anti-Thy-1.2 antibody with the human IgG1 Fc part was found to be equally effective in preventing graft-versus-host disease mortality as the highly protective anti-Thy-1.2 mouse IgG2a isotype, while human
IgG3
was far less effective. This was not predictable by measuring the degree of T cell depletion in peripheral blood. T cell depletion in lymph nodes, however, exactly reflected the results obtained in the
BMT
system. In addition, this system offers the advantage of assessing the influence of reduced antigen density by using heterozygous Thy-1.2 mice.
...
PMID:A mouse model for the preclinical evaluation of immunosuppressive effector functions of human isotypes. The human IgG1 isotype is superior to IgG3. 810 76
The very rapid development in the last few years of techniques based on use of the polymerase chain reaction (PCR) for characterizing molecular lesions in leukaemia and lymphoma now offers the opportunity for monitoring residual disease at a sensitivity of one malignant cell in 10(5) or 10(6) normal cells. Maximal specificity is presumably achieved when the DNA sequences amplified are truly leukaemia-specific, such as BCR/ABL in chronic myelogenous leukemia, RARA PML/RARA in t(15;17) acute myelogenous leukemia, DEK/CAN in t(6;9) AML, PBX1/E2A in t(1;19) acute lymphoblastic leukemia (ALL), or TAL-1 deletions in other T-ALLs. Comparable sensitivity may be achieved by using
immunoglobulin heavy chain
(
IGH
) and T-cell receptor (TCR) gene rearrangements if a clonospecific probe can be generated. However, the presence of similar sequences in IgH genes from normal B lymphocytes may decrease the specificity. For clinical purposes the crucial issues are the following. Can PCR techniques be used for confirmation of diagnosis and evaluation of extent of disease? Can PCR data obtained in remission provide information about the probability of cure or of relapse? Can techniques be developed to quantitate the PCR product and thereby increase its predictive value? These and other issues were addressed at the 4th Workshop of the Molecular Biology/
BMT
Study Group that took place in Bristol UK on 9-10 May 1992.
...
PMID:Molecular evidence of minimal residual disease after treatment for leukaemia and lymphoma: an updated meeting report and review. 835 Jun 33
Serial assessment of peripheral blood T and B cell recovery and serum immunoglobulins was performed in 19 children for the first year following
BMT
and compared with normal values established from healthy children. Immunophenotypic analysis on bone marrow was performed in selected cases by Southern blotting of the
immunoglobulin heavy chain
(
IgH
) gene. We found no significant differences between T cell-replete or depleted allogeneic bone marrow transplants. Lymphocyte numbers were low until 9 months post-
BMT
. T cell numbers (CD2, CD3, CD5) were also low until 12 months but B cell numbers (CD19) became normal at 3 months. Both CD4+ and CD8+ T cell subsets were low post-
BMT
with depression of CD4+ greater and more prolonged than that of CD8+. No overshoot of CD8+ was seen. The principal effect of GVHD or its treatment was further depression of CD4+ cells but with no increase in CD8+; recovery of B cells was also delayed. Recovery of IgG was slow with only six of 11 children reaching an age-adjusted normal level by 1 year, whereas there was more rapid recovery of IgM and IgA. Several children had an increase in lymphocytes of immature appearance in their bone marrow at varying times post-
BMT
with increased cells of phenotype CD19+, CD10+, HLA-DR+ and TdT+. In each case Southern blotting showed a germline pattern of the
IgH
indicating a polyclonal early B cell regenerative population.
...
PMID:Immune reconstitution after BMT in children. 843 13
We studied 20 patients who had received allogeneic bone marrow transplants for acute lymphoblastic leukemia. Using the polymerase chain reaction (PCR), we examined them for the presence of
immunoglobulin heavy chain
variable-diversity-junctional (IgH V-D-J) gene rearrangements as a marker of minimal residual disease (MRD). Seventeen of the patients were transplanted in relapse or for primary refractory disease, and three were transplanted in "high risk" remission. Thirteen patients had at least one positive PCR assay for MRD in the first 100 days after transplant; two died of nonleukemic causes, while all the remaining 11 relapsed. Seven patients had all negative PCR assays; two died of nonleukemic causes, four remain alive and well, and one patient with consistently negative PCR assays relapsed 47 days after his last negative test. Considering PCR status as a time-dependent covariate, the relative risk of relapse for PCR-positive patients compared to PCR-negative patients is 6.4 (p = 0.0067; 95% CI, 1.6-24.4), and the relative risk of relapse or death is 4.8 (p = 0.0052; 95% CI, 1.6-14.2). The Kaplan-Meier estimate of relapse at 1 year for PCR-positive patients is 100% compared to 33% for PCR-negative patients. The estimate for disease-free survival at 1 year for PCR-positive patients is 0% compared to 44% at 3 years for the PCR-negative group. The PCR assay for MRD appears to be a sensitive and specific test, identifying patients at high risk of relapse following allogeneic
BMT
who might benefit from further therapeutic interventions.
...
PMID:Polymerase chain reaction-based detection of minimal residual disease in acute lymphoblastic leukemia predicts relapse after allogeneic BMT. 911 86
