Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
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Target Concepts:
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Query: EC:3.4.24.11 (
CD10
)
9,792
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Mediastinal large B cell lymphomas are uncommon neoplasms that are thought to originate from thymic B cells. An unusual feature of these neoplasms is that they often lack surface immunoglobulin (Ig), a molecule ubiquitously expressed by most mature B cells. In the present study we have analyzed 12 cases of mediastinal large B cell lymphoma for the expression of the mb-1/CD79a polypeptide. This is a component, together with B29/CD79b, of a heterodimer that is associated with surface Ig on normal B cells. Our aim was to see whether loss of Ig in this type of lymphoma is associated with loss of the accompanying CD79a molecule. We have also evaluated 128 B cell lymphomas of other categories to see whether any of them show discordance between mb-1 and Ig expression and analyzed 30 T cell lymphomas as Ig-negative controls. We found that 5 of the 7 mediastinal large B cell lymphomas with interpretable staining results for both mb-1 and Ig, lack Ig but expressed CD79a (mb-1). This phenotype was very rare in other categories of B cell lymphoma, being found among 110 cases in only 5 cases that were all follicular lymphoma. The remaining 105 B cell lymphomas displayed mb-1+/Ig+ phenotype. All 30 T cell lymphomas were mb-1 negative. We conclude that discordant mb-1/Ig expression occurs commonly in mediastinal large B cell lymphomas. In addition, the finding that 11 of 12 of these neoplasms express a phenotype (
CD10
-, CD19+, CD20+, CD21-, CD22+, CD23-/+) that is very similar to that described for thymic medullary B cells reinforces the idea that most mediastinal large B cell lymphomas are of thymic B cell origin. The correlation between mb-1 and Ig staining patterns in B cell lymphomas of other categories reveals that in the majority (90%), expression of the antigen receptor complex parallels that of mature B cells. These data therefore confirm that the expression of the
mb-1 protein
provides independent strong evidence for the B lineage of lymphomas and may be used for their routine phenotypic characterization.
...
PMID:Discordant expression of immunoglobulin and its associated molecule mb-1/CD79a is frequently found in mediastinal large B cell lymphomas. 788 54
The expression of the Ig-linked
mb-1
polypeptide was analyzed by immunocytochemistry (alkaline phosphatase anti-alkaline phosphatase technique) using a specific monoclonal antibody in 165 cases of acute leukemia, with 88 being lymphoblastic (ALL) and 77 myeloid (AML). The purpose of the study was to investigate the specificity of this reagent for B-lineage cases and its reactivity on leukemias that coexpress myeloid and B-cell antigens (biphenotypic). The majority (89%) of 72 B-cell precursor ALL patients were positive. Of these,
mb-1
was expressed in all 9 patients with early-B-ALL (
CD10
-, c mu-), in all 11 patients with pre-B-ALL (c mu+) and in the single case of B-ALL (smIgM+). Forty-three of 51 patients with common-ALL (CD10+, c mu+) were also positive. All 16 T-lineage ALL patients and 72 (93.5%) of the AML patients examined were
mb-1
negative. Four of the 5
mb-1
-positive AML patients were considered biphenotypic and expressed other B-cell antigens such as
CD10
, CD19, and/or cCD22 and all showed rearrangement of the Ig heavy chain genes. Within the AML cases,
mb-1
and cCD22 were more useful than other B-cell antigens in detecting biphenotypic cases, and
mb-1
showed the highest correlation with the clonal rearrangement of Ig heavy chain genes. These results indicate that
mb-1
is a sensitive and specific reagent for B-lineage blasts that will aid in the classification of B-cell precursor ALL and in the identification of biphenotypic leukemia presenting as AML.
...
PMID:mb-1: a new marker for B-lineage lymphoblastic leukemia. 833 49
Terminal deoxynucleotidyl transferase (TdT)-positive cells in human bone marrow (BM) are a phenotypically inhomogeneous population of precursor cells. In their majority, these TdT+ cells are unambiguously committed to the B lineage, as evidenced by CD19 expression. However, TdT+ precursors that lack CD19 also exist and these may encompass a differentiation potential for the B as well as for other lineages. Because recent data suggested that CD19 expression is not the earliest differentiation event in B-cell ontogeny, we sought to reevaluate TdT+ lymphoid precursors in pediatric BM to define the phenotypic denominator of B-lineage affiliation upstream of CD19. Using four-color flow cytometry, we focused on the assessment of the
CD79a antigen
, which is highly B-cell specific and which may also be expressed very early in B-cell ontogeny. We found that a majority of TdT+ cells coexpressed CD19 and CD79a in addition to
CD10
and CD34, whereas, in all investigated samples, some TdT+ precursors lacked CD19 but expressed CD79a, which suggestively indicates also their B-lineage affiliation. In contrast to the CD19(+) precursors, which were usually
CD10
(hi) and CD79b+, these CD19(-)CD79a+ putative B-cell precursors preferentially expressed
CD10
at low levels and were CD79b+ in only 41%. About 17% of these TdT+CD19(-)CD79a+ precursors also coexpressed CD33 and CD7, but not myeloperoxidase, CD14, or cytoplasmic CD3, which is discussed in the light of cellular activation rather than lineage promiscuity. Our data confirm that the earliest differentiation stages of B cells can be dissected upon expression of the lineage antigens CD79a and CD19 and imply that CD79a is earlier expressed than CD19. This raises the chance to follow the sequential events heralding B-cell commitment in the most immature precursors by correlating phenotypic and genetic differentiation markers.
...
PMID:Four-color flow cytometric investigation of terminal deoxynucleotidyl transferase-positive lymphoid precursors in pediatric bone marrow: CD79a expression precedes CD19 in early B-cell ontogeny. 978 56
