Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:2.7.10.2 (focal adhesion kinase)
 44,029 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A newly established human leukemia cell line, OM9;22, is reported, with B-precursor immunophenotype (CD10+ CD19+ CD22+ HLA- DR+ C mu-) and CD13 antigen, originated from a 19-year-old female patient with Philadelphia (Ph) chromosome-positive acute lymphoblastic leukemia (ALL). The OM9;22 cells carry a Philadelphia (Ph) translocation and hybrid message detected by a minor-breakpoint cluster region (BCR) exon 1/ABL exon 2 junctional probe using reverse transcriptase polymerase chain reaction. The genetic alterations are consistent with those observed in the donor's leukemia cells, allowing us to conclude that this cell line is a minor-BCR rearranged Ph-positive ALL (Ph+ ALL). Colony formation of the OM9;22 cells in methylcellulose culture is enhanced by the addition of human interleukin 7 (IL-7). In liquid culture, more than 80% of IL-7-treated OM9;22 cells express CD20 antigen but fail to express surface immunoglobulins or cytoplasmic mu-chain, indicating that the cells have a potential of limited maturation by IL-7. By contrast, IL-4 suppresses the colony formation of the OM9;22 cells. These findings suggest that this cell line might be a model of B-precursor human leukemia with proliferative capability by IL-7.
Leukemia 1993 Jul
PMID:Interleukin-7 enhances colony growth and induces CD20 antigen of a Ph+ acute lymphoblastic leukemia cell line, OM9;22. 768 4

We have investigated the biodistribution, toxicity, and antitumor activity of a new type of synthetic compound containing an enediyne functional group capable of benzenoid diradical generation. The design of this cytotoxic molecule was based on the structures of naturally occurring enediyne antibiotics. Compared to the natural compounds, the synthetic enediyne displayed cytotoxicities approaching the natural analogs. Using a tritiated analog, biodistribution studies revealed relatively high uptake levels in kidney, lung, heart, and spleen with moderate levels in all other organs. Antitumor activity was apparent, with significant tumor regression observed in athymic nude mice with established M21 melanomas. Significant tumor antiproliferative effects were observed against L-1210 mouse leukemia, A549 lung carcinomas and PC3 prostate carcinomas in athymic nude mice, and against EMT-6 mouse mammary adenocarcinomas in Balb/cByJ mice. These results suggest that synthetic enediynes may be useful therapeutic compounds since their design reduces systemic toxicity compared to the natural products, without compromising antitumor activity. The relatively low sensitivity of many established cell lines to synthetic enediynes suggests a discrepancy between cell culture and in vivo tumor cytotoxicities. Adaptation of some cell lines for in vivo proliferation may affect their sensitivity to synthetic enediynes.
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PMID:In vivo efficacy of novel synthetic enediynes 1. 771 52

Genomic imprinting has recently been associated with the reciprocal t(9;22) chromosome translocation of chronic myeloid leukaemia (CML). This translocation gives rise to a 22q-, or Philadelphia (Ph), chromosome and a derivative 9q+. Based on heterochromatin polymorphisms, it was reported that the former is of maternal and the latter of paternal origin in every case of CML. This parental bias led to the hypothesis that the genes disrupted by the translocation, BCR and ABL, were themselves imprinted, and that in CML the BCR-ABL gene was formed by BCR sequences of maternal and ABL sequences of paternal origin. We have identified a BstNl restriction fragment length polymorphism in the ABL coding sequence which enabled us to investigate directly the expression and inheritance of the two ABL alleles in heterozygous CML patients. Amplification of the specific BCR-ABL and normal ABL mRNA messages by reverse transcriptase-polymerase chain reaction in these patients showed that the ABL moiety of the BCR-ABL gene has an even chance of being the paternal or the maternal copy. We conclude therefore that there is no parental bias in the origin of the translocated ABL gene and no evidence for genomic imprinting of ABL in CML.
Leukemia 1995 Apr
PMID:Balanced parental contribution to the ABL component of the BCR-ABL gene in chronic myeloid leukemia. 772 12

The apparent nonrandom contribution of the paternally-derived chromosome 9 and the maternally-derived chromosome 22 to the leukemia-specific translocation t(9;22)(q34;q11) obtained by cytogenetic analysis suggested that the two genes affected by this rearrangement, namely ABL and BCR, are imprinted. The results of recent molecular genetic studies have challenged this notion, since it was shown that both the paternal as well as the maternal BCR- and ABL-alleles may be affected by the translocation event and that both genes may be expressed from both alleles. This paper offers possible explanations for the apparent contradictory results obtained through cytogenetic and molecular genetic means. Based on the few available data concerning their allelic methylation pattern, replication behavior and expression status, as well as by referring to similar problems encountered in other genes whose imprinting status had also remained elusive for a long time, I argue that it still remains likely that ABL and BCR are imprinted.
Leukemia 1995 Apr
PMID:Are ABL and BCR imprinted? No definitive answers, but more questions. 772 13

Cytogenetic studies of Ph-positive leukemic patients and their parents have indicated that chromosome 22 involved in the formation of the t(9;22) is of maternal origin, whereas chromosome 9 is preferentially of paternal origin. These data have suggested that the two genes BCR and ABL, which become fused through the translocation, might be imprinted, ie expressed in a parental-specific manner. Recent molecular genetic studies however, have shown that BCR and ABL are expressed on both alleles and that the maternal and paternal ABL genes contribute equally often to the BCR-ABL fusion messenger. The findings make imprinting of these genes unlikely as an explanatory model and necessitate a combined cytogenetic and molecular genetic study.
Leukemia 1995 Apr
PMID:Standpoint on imprinting of BCR and ABL. 772 14

A subset of adult acute lymphoblastic leukemia (ALL) patients have blast cells which co-express myeloid-associated antigens (MY+ ALL). We have analyzed 113 adult ALL cases for expression of MY-associated antigens (MAA). ALL was diagnosed by standard morphology, cytochemistry, and immunophenotype in central review. MY+ ALL was diagnosed when > or = 20% of lymphoblasts co-expressed CD13 and/or CD33. Overall incidence of MY+ was 31/113 (27%). MAA expression was not significantly correlated with WBC, blast count, hemoglobin, or hematocrit. MY+ cases were more likely to express B-associated antigens, especially CALLA, and to be FAB L2, Ph+, or to have the BCR-ABL translocation by PCR, but these differences were not statistically significant. All patients were induced with a L10M regimen, and 67 (59%) achieved CR: 43/66 (65%) of B MY neg; 14/29 (48%) of B MY+; 10/16 (63%) T MY neg; and 0/2 T MY+. In age-adjusted analyses CR rate did not differ significantly between MY+ and MY neg patients or between B- and T-cell patients. Of the 113 patients, 84 have died and the remaining 29 patients have been followed for a median of 49 months. In proportional hazards regression analyses adjusting for age and WBC, heterogeneity of survival among the four groups was statistically significant (p = 0.021), largely due to MY status. The mortality rate was 85% greater for MY+ patients compared to MY neg patients (two-tailed p = 0.013). By contrast, survival did not vary significantly between B- and T-cell patients. The data indicate that MAA expression is useful for predicting overall survival of adult patients with ALL treated in a L10M protocol. As a predictive factor MAA expression is comparable to the WBC and superior to the more standard stratification by B- or T-cell markers for this group of patients.
Leukemia 1994 Dec
PMID:Expression of myeloid antigens by blast cells in acute lymphoblastic leukemia of adults. The Southwest Oncology Group experience. 780 99

CML patients possess either a b3-a2 or a b2-a2 fusion between the BCR and ABL genes. Depending on the type of fusion, two different series of non-self potentially immunogenic peptides may be produced. If they are presented by HLA class I molecules and recognized by cytotoxic CD8 lymphocytes, individuals could be more susceptible or resistant to leukemic cells bearing one or the other form of fusion according to their HLA class I phenotype. To test this point, the frequencies of HLA-A and HLA-B alleles were compared between b3-a2 and the b2-a2 CML patients. In essence, no difference was found whose significance could withstand correction for multiple comparisons.
Leukemia 1994 Dec
PMID:The HLA class I-CML association revisited taking into account the two forms of gene fusion in the Philadelphia chromosome. A multicenter study. 780 1

We have examined the effects of antisense oligomers (AOs) of various lengths, sequences and chemistry on the proliferation of eight different cell lines, five derived from patients with chronic myelogenous leukemia (CML) and three from other sources. In general, phosphodiester AOs were inactive, presumably due to degradation by nucleases present in fetal calf serum. Both BA2 and B3A2 phosphorothiolate AOs (but not corresponding sense oligomers) significantly inhibited the proliferation of three CML cell lines (BV173, LAMA84, and KYO1), but the effect was independent of the type of breakpoint expressed by each cell line, suggesting that the inhibition was sequence dependent but not sequence specific. The CML cell lines tested showed different sensitivities to inhibition of proliferation by AOs--lines with defective expression of the normal ABL protooncogene (e.g. BV173) were more readily inhibited than lines with a normal ABL message (e.g. K562). We conclude that further studies are necessary to delineate the precise mechanism(s) by which CML cell proliferation is inhibited by AOs.
Leukemia 1994 Dec
PMID:Antisense BCR-ABL oligomers cause non-specific inhibition of chronic myeloid leukemia cell lines. 780 4

The bcr-abl oncogene is a fusion gene resulting from a reciprocal translocation which forms the hallmark of chronic myeloid leukemia (CML). Antisense oligonucleotides complementary to the two possible mRNA breakpoints were found to inhibit cell growth of CML patient cells and cell lines, but doubt exists about their specificity. In order to test the specificity, phosphorothioate and 3' phosphorothioate capped antisense BCR-ABL oligonucleotides of different length were used. Stability, cellular uptake of oligonucleotides and effect on cell growth were studied in two CML cell lines, BV173 and LAMA-84. Phosphorothioate antisense BCR-ABL oligonucleotides were most stable, showed the highest uptake and induced cell death in BV173 but not in LAMA-84 cells. We selected the most effective antisense oligonucleotide for further analysis. The BV173 and LAMA-84 cell lines do not express the normal c-abl protein, we therefore used a c-abl specific monoclonal antibody for the detection of p210bcr-abl expression by flow cytometry. Dead cells found after treatment were gated out of analysis. Although BCR-ABL antisense oligonucleotides can induce apoptosis, no reduction of p210bcr-abl levels could be detected in living cells after treatment with antisense oligonucleotides. We conclude that antisense mediated inhibition of translation of mRNA into p210bcr-abl is not the mechanism responsible for the induction of apoptosis in cell line BV173.
Leukemia 1995 Jan
PMID:Phosphorothioate BCR-ABL antisense oligonucleotides induce cell death, but fail to reduce cellular bcr-abl protein levels. 784 6

Leukemias induced with the v-abl or BCR/ABL oncogene undergo a process of tumor progression which suggests that the ABL oncogene is required but not sufficient for full transformation. In order to identify cellular changes that correlate with progression to full transformation in v-abl transformed lymphoblasts Abelson virus (A-MuLV)-infected murine bone marrow was plated over a pre-established stromal feeder layer. Shortly after A-MuLV infection, transformed lymphoblasts were poorly oncogenic, but over time, progressed in a stepwide manner to a more oncogenic state. The transformants first acquired the ability to grow efficiently in agar, but only over the feeder layer. They next progressed to efficient feeder-independent growth in liquid culture, and then to efficient feeder-independent growth in soft agar. Cell lines that reached the advanced stage of feeder-independent agar growth showed increased detection by antiphosphotyrosine Western blot of the GAP-associated p62 phosphoprotein as well as of a 55 kDa phosphoprotein while detection of the P160 v-abl phosphoprotein remained constant throughout all stages of progression. Although the identity of the p55 phosphoprotein and the mechanism by which detection of p55 and p62 phosphoproteins change on the Western blots during tumor progression are unknown, the data demonstrate that these changes strongly correlate with the stage of progression of v-abl-transformed cells and raise the possibility that these changes may play a role in tumor progression in this model.
Leukemia 1995 Jan
PMID:Increased detection of specific tyrosine phosphoproteins correlates with tumor progression of Abelson virus-infected lymphocytes. 784 13


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