With in situ hybridization and Southern blot analysis of somatic cell hybrid DNA, the human insulin receptor gene was mapped to the distal short arm of chromosome 19 (bands p13.2----p13.3), a site involved in a nonrandom translocation in pre-B-cell acute leukemia.
Cloning and sequencing of the breakpoint region on chromosome 14q+ from one of the two B-ALL cases showed that the myc gene is truncated 1077 nucleotides upstream from the translation start site, and rearranged in the opposite transcriptional orientation into an Ig class-switch segment approximately 4.8 kb upstream from the C alpha 1 gene.
Thirty-seven of them were common-ALL positive for CD10 "common-ALL antigen (CALLA)" (NL-1), CD19(B4) and HLA-DR. One was pre-B ALLnegative for CALLA and another null-ALL which expressed HLA-DR alone.
Thirty-seven of them were common-ALL positive for CD10 "common-ALL antigen (CALLA)" (NL-1), CD19(B4) and HLA-DR. One was pre-B ALLnegative for CALLA and another null-ALL which expressed HLA-DR alone.
Interestingly, 18% (2/11) of the cytoplasmic immunoglobulin (cIg)-positive cALLA+ (pre-B) ALLs involved TCR gene rearrangements, compared to 60% (21/35) of the cIg-negative cases, suggesting the possibility that the majority of functional B cells are derived from the cALLA+ pool that contains immunoglobulin but not TCR gene rearrangements.
The cases were classified as common ALL (TdT+, CALLA+, pan-T-, and pan-B-) (41 cases), null-ALL (TdT+, CALLA-, pan-T-, and pan-B-) (19 cases), T-ALL (TdT+, CALLA-, pan-T+, and pan-B-) (nine cases), B-ALL (TdT-, CALLA-, pan-T-, and pan-B+) (six cases), pre-B-ALL (TdT+/-, CALLA+, pan-T-, and pan-B+) (four cases), or pre-T-ALL (TdT+, CALLA+, pan-T+, and pan-B-) (two cases).
The DNA obtained from the leukemia cells of an acute lymphoblastic leukemia (ALL, L3 type) with a pre-B-phenotype and a typical t(8;14) chromosomal translocation showed a rearrangement juxtaposing the c-myc gene and the immunoglobulin (Ig) heavy-chain gene enhancer.
We now report that spontaneous T-cell colonies could also be obtained during complete remission of 13 out of 21 patients with T-ALL and T-NHL, but none of eight patients with common (pre-B) ALL (cALL).
Cytogenetic and molecular investigations of NALM 6 cells (a pre-B-lymphoblastic acute leukemia cell line) revealed them to contain both alleles of the c-fms gene, though the cells had chromosomal changes of 5q- and 12p+.
Nine of 15 B-precursor ALLs with rearranged alpha-chain genes had rearrangements of both gamma- and beta-chain genes, whereas the remaining six had no rearrangements of gamma- and beta-chain genes.
Using a newly isolated cDNA clone encoding the TCR-delta gene and genomic probes, we have analyzed T cell receptor (TCR) delta gene rearrangement in 19 patients with T cell acute lymphoblastic leukemia (T-ALL) and 29 patients with B-precursor ALL.
Using a newly isolated cDNA clone encoding the TCR-delta gene and genomic probes, we have analyzed T cell receptor (TCR) delta gene rearrangement in 19 patients with T cell acute lymphoblastic leukemia (T-ALL) and 29 patients with B-precursor ALL.
Using a newly isolated cDNA clone encoding the TCR-delta gene and genomic probes, we have analyzed T cell receptor (TCR) delta gene rearrangement in 19 patients with T cell acute lymphoblastic leukemia (T-ALL) and 29 patients with B-precursor ALL.
This in vivo cell line, designated PALL-I, retained the Ph1 chromosome, t(9;22) (q34;q11), and pre-B-cell phenotype (SmIg-, CpIg-, CD10+, CD19+, OKIaI+, and CD38+), like the original leukemia cells.
Results presented here suggest that although expression of TCR genes was weak in B-precursor ALL cells compared with T-lineage cells, these genes experience both transcriptional and recombinational crossover in B-precursor ALL.
This in vivo cell line, designated PALL-I, retained the Ph1 chromosome, t(9;22) (q34;q11), and pre-B-cell phenotype (SmIg-, CpIg-, CD10+, CD19+, OKIaI+, and CD38+), like the original leukemia cells.
This in vivo cell line, designated PALL-I, retained the Ph1 chromosome, t(9;22) (q34;q11), and pre-B-cell phenotype (SmIg-, CpIg-, CD10+, CD19+, OKIaI+, and CD38+), like the original leukemia cells.