Gene/Protein
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Pivot Concepts:
Gene/Protein
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Target Concepts:
Gene/Protein
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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)
In this study, we applied mAb and heterologous antisera in double marker combinations to investigate the phenotype and the proliferative activity of immature B lineage cells in
XLA
. Bone marrow (BM) samples from eight male adult patients with no circulating B lymphocytes were studied. The proportions and the phenotype of the earliest identifiable B cell progenitors, expressing nuclear terminal deoxynucleotidyl transferase (TdT), cytoplasmic CD22, and membrane CD19 and
CD10
were identical to those observed in normal BM. In
XLA
these cells represented 1.2% to 22% of BM mononuclear cells; 5% to 42% and 1% to 45% of such cells weakly expressed CD20 and CD37, respectively, and invariably lacked CD13 and CD33. Cytoplasmic mu+ sIg- pre-B cells were seen in low numbers (0.1% to 0.3%) in four samples and were undetectable in the remaining four. Consequently, the ratio TdT+/c mu+ was greater than 100 in five out of eight samples studied in contrast to the less than 10 values seen in normal individuals. The proliferative activity of B lineage progenitor cells was studied by using Ki67 and anti-bromodeoxyuridine mAb. Although the proliferation of TdT+ cells in
XLA
was comparable with that seen in normal BM samples (24% to 59% of TdT+ were Ki67+ and 11% to 27% incorporated bromodeoxyuridine), this was dramatically reduced in the c mu+ cells (no c mu+, Ki67+ seen in three samples where pre-B cells were observed). Thus, the abnormalities of B cell differentiation in
XLA
are first seen at the c mu+ pre-B stage and suggest a maturation block in the transition between TdT+, c mu- pre-pre-B cells and c mu+ pre-B cells. The severity of this block may be variable, allowing the generation of a near normal number of pre-B cells in some patients, which nevertheless have a defective proliferative activity. Finally, our study further supports the concept that the effects of the "XLA gene" are confined within the B lineage by demonstrating that the proportions of T cells bearing TCR-alpha beta and TCR-gamma delta in
XLA
are similar to those seen in normal individuals.
...
PMID:Phenotypic features and proliferative activity of B cell progenitors in X-linked agammaglobulinemia. 239 16
We report a detailed comparison of B cell defects in two patients, one
XLA
and one non-
XLA
. Both had severe agammaglobulinemia with a total absence of CD19+ cells in the periphery. In the non-
XLA
case, CD19 expression was also highly impaired in the bone marrow, resulting in the absence of both B and preB compartments. Early proB cells were present since CD34+CD10+ and some CD19+CD10+ mostly CD34+ were identified, although diminished. By contrast, in the
XLA
patient the CD34+CD19+ proB cells were increased whereas the CD34-CD19+ preB cell population was low. Semi-quantitative RT-PCR analysis performed on mononuclear bone marrow cells from the non-
XLA
patient indicated that lambda-like, VpreB, Rag-1, Rag-2 and TdT transcripts expressed during proB cell stages were found at normal levels whereas E2A,
CD10
, Syk, Pax-5, CD19, Ig alpha, Ig beta, VH-C mu and V kappa-C kappa transcripts characteristic of later stages were severely depressed. By contrast in the
XLA
patient most of these transcripts were observed in normal amounts. The phenotype of the non-
XLA
patient resembles that of Pax-5 or Ig beta knock-out mice, but since the coding sequence of both cDNAs were shown to be normal, the blockage might rather result from an altered regulation of one of these genes or from defect of other genes. All these data indicate that the non-
XLA
patient suffers from a new genetic defect that results in an arrest of differentiation within the proB cell compartment, before the onset of Ig gene rearrangements. From all agammaglobulinemias reported so far, including
XLA
cases and those resulting from C mu gene defects, the non-
XLA
patient exhibits the earliest blockage in the B cell differentiation pathway.
...
PMID:A non-XLA primary deficiency causes the earliest known defect of B cell differentiation in humans: a comparison with an XLA case. 923 32
