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Query: UMLS:C0023418 (
leukemia
)
93,477
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The human myeloid-lymphoid leukemia gene, MLL (also called ALL-1, Htrx, or
HRX
), maps to chromosomal band 11q23. MLL is involved in translocations that result in de novo acute lymphoblastic leukemia (ALL), acute myelogenous leukemia (AML), mixed lineage
leukemia
, and also in therapy AML (t-AML) and therapy ALL (t-ALL) resulting from treatment with DNA topoisomerase II (topo II) targeting drugs. MLL can recombine with more than 30 other chromosomal bands, of which 16 of the partner genes have been cloned. Breaks in MLL occur in an 8. 3-kb breakpoint cluster region (BCR) encompassing exons 5 through 11. We recently demonstrated that 75% of de novo patient breakpoints in MLL mapped in the centromeric half of the BCR between two scaffold-associated regions (SAR), whereas 75% of the t-AML patient breakpoints mapped to the telomeric half of the BCR within a strong SAR. We have mapped additional structural elements in the BCR. An in vivo DNA topo II cleavage site (induced with several different drugs that target topo II) mapped near exon 9 in three
leukemia
cell lines. A strong DNase I hypersensitive site (HS) also mapped near exon 9 in four
leukemia
cell lines, including two in which MLL was rearranged [a t(6;11) and a t(9;11)], and in two lymphoblastoid cell lines with normal MLL. Two of the
leukemia
cell lines also showed an in vivo topo II cleavage site. Our results suggest that the chromatin structure of the MLL BCR may influence the location of DNA breaks in both de novo and therapy-related leukemias. We propose that topo II is enriched in the MLL telomeric SAR and that it cleaves the DNase I HS site after treatment with topo II inhibitors. These events may be involved in recombination associated with t-AML/t-ALL breakpoints mapping in the MLL SAR.
...
PMID:An in vivo topoisomerase II cleavage site and a DNase I hypersensitive site colocalize near exon 9 in the MLL breakpoint cluster region. 980 73
MLL (ALL1, Htrx,
HRX
), which is located on chromosome band 11q23, frequently is rearranged in patients with therapy-related acute myeloid leukemia who previously were treated with DNA topoisomerase II inhibitors. In this study, we have identified a fusion partner of MLL in a 10-year-old female who developed therapy-related acute myeloid leukemia 17 months after treatment for Hodgkin's disease.
Leukemia
cells of this patient had a t(11;17)(q23;q25), which involved MLL as demonstrated by Southern blot analysis. The partner gene was cloned from cDNA of the
leukemia
cells by use of a combination of adapter reverse transcriptase-PCR, rapid amplification of 5' cDNA ends, and BLAST database analysis to identify expressed sequence tags. The full-length cDNA of 2.8 kb was found to be an additional member of the septin family, therefore it was named MSF (MLL septin-like fusion). Members of the septin family conserve the GTP binding domain, localize in the cytoplasm, and interact with cytoskeletal filaments. A major 4-kb transcript of MSF was expressed ubiquitously; a 1.7-kb transcript was found in most tissues. An additional 3-kb transcript was found only in hematopoietic tissues. By amplification with MLL exon 5 forward primer and reverse primers in MSF, the appropriately sized products were obtained. MSF is highly homologous to hCDCrel-1, which is a partner gene of MLL in leukemias with a t(11;22)(q23;q11.2). Further analysis of MSF may help to delineate the function of MLL partner genes in
leukemia
, particularly in therapy-related
leukemia
.
...
PMID:MSF (MLL septin-like fusion), a fusion partner gene of MLL, in a therapy-related acute myeloid leukemia with a t(11;17)(q23;q25). 1033 4
One of the most common chromosomal abnormalities in acute leukemia is a reciprocal translocation involving the
HRX
gene (also called MLL, ALL-1, or HTRX) at chromosomal locus 11q23, resulting in the formation of
HRX
fusion proteins. Using the yeast two-hybrid system and human cell culture coimmunoprecipitation experiments, we show here that
HRX
proteins interact directly with the GADD34 protein. We have found that transfected cells overexpressing GADD34 display a significant increase in apoptosis after treatment with ionizing radiation, indicating that GADD34 expression not only correlates with apoptosis but also can enhance apoptosis. The amino-terminal third of the GADD34 protein was necessary for this observed increase in apoptosis. Furthermore, coexpression of three different
HRX
fusion proteins (
HRX
-ENL,
HRX
-AF9, and
HRX
-ELL) had an anti-apoptotic effect, abrogating GADD34-induced apoptosis. In contrast, expression of wild-type
HRX
gave rise to an increase in apoptosis. The difference observed here between wild-type
HRX
and the leukemic
HRX
fusion proteins suggests that inhibition of GADD34-mediated apoptosis may be important to leukemogenesis. We also show here that GADD34 binds the human SNF5/INI1 protein, a member of the SNF/SWI complex that can remodel chromatin and activate transcription. These studies demonstrate, for the first time, a gain of function for leukemic
HRX
fusion proteins compared to wild-type protein. We propose that the role of
HRX
fusion proteins as negative regulators of post-DNA-damage-induced apoptosis is important to
leukemia
progression.
...
PMID:Leukemic HRX fusion proteins inhibit GADD34-induced apoptosis and associate with the GADD34 and hSNF5/INI1 proteins. 1049 Jun 42
Translocations affecting the chromosomal locus 11q23 are hallmarks of infant leukemias. These events disrupt the MLL gene (also ALL-1 or
HRX
) and fuse the MLL amino terminus in frame with a variety of unrelated proteins. The ENL gene on 19p13.1 is a recurrent fusion partner of MLL. Whereas potential functions have been suggested for isolated domains of either MLL or ENL no experimental data exist for the biological properties of the complete chimeric MLL-ENL protein. We show here that the fusion of MLL with ENL creates a novel molecule that is a potent general transcriptional transactivator in transient reporter gene assays. MLL-ENL strongly transactivated several unrelated promoters including the promoter of Hoxa7 a potential target gene for the unaltered MLL protein. This transactivation capability was cell type specific and it was critically dependent on the contributions of the methyltransferase-homology (MT) region of MLL in combination with the C-terminus of ENL. Squelching experiments and gel retardation studies identified the ENL C-terminus as a binding partner for an unknown factor and the MLL MT region as a unique general DNA binding motif. The potential implications of these findings for the leukemogenesis by MLL-ENL are discussed.
Leukemia
1999 Oct
PMID:The leukemogenic fusion of MLL with ENL creates a novel transcriptional transactivator. 1051 53
Several lines of evidence suggest that the mixed lineage
leukemia
protein (MLL, ALL-1,
HRX
) plays a role in regulating myelomonocytic differentiation. In this study we examined the effect of expression of MLL-AF9 on differentiation of the monoblastic U937 cell line by using a tetracycline-inducible expression system. MLL-AF9 arrested growth of U937 cells and induced these cells to differentiate into macrophages; induction was accompanied by expression of CD11b and CD14 and ultimately cell death. Deletion mutants of MLL-AF9 were used to map the sequences responsible for this effect. The amino-terminal half of MLL was sufficient for both cell cycle arrest and macrophage differentiation, whereas the carboxyl terminus of MLL or AF9 was found to be dispensable for this effect. Further deletions showed that a 35-kDa amino-terminal fragment spanning two AT hook motifs was sufficient for cell cycle arrest, up-regulation of p21(Cip1) and p27(Kip1), and partial differentiation toward macrophages. These findings suggest a possible role for the MLL AT hook-containing region in regulating myelomonocytic differentiation.
...
PMID:The amino terminus of the mixed lineage leukemia protein (MLL) promotes cell cycle arrest and monocytic differentiation. 1068
The mixed lineage
leukaemia
gene, MLL (also called
HRX
, ALL-1) in acute
leukaemia
is fused to at least 16 identified partner genes that display diverse structural and biochemical properties. Using GST pull down and the yeast two hybrid system, we show that two different MLL fusion partners with SH3 domains, EEN and Abi-1, interact with dynamin and synaptojanin, both of which are involved in endocytosis. Synaptojanin, a member of the inositol phosphatase family that has recently been shown to regulate cell proliferation and survival, is also known to bind to Eps15, the mouse homologue of AF1p, another fusion partner of MLL. Expression studies show that synaptojanin is strongly expressed in bone marrow and immature leukaemic cell lines, very weakly in peripheral blood leukocytes and absent in Raji, a mature B cell line. We found that the SH3 domains of EEN and Abi-1 interact with different proline-rich domains of synaptojanin while the EH domains of Eps15 interact with the NPF motifs of synaptojanin. In vitro competitive binding assays demonstrate that EEN displays stronger binding affinity than Abi-1 and may compete with it for synaptojanin. These findings suggest a potential link between MLL fusion-mediated leukaemogenesis and the inositol-signalling pathway.
Leukemia
2000 Apr
PMID:The interaction between EEN and Abi-1, two MLL fusion partners, and synaptojanin and dynamin: implications for leukaemogenesis. 1076 44
Bruton's tyrosine kinase (Btk) is required for normal B cell development and signal transduction through cell surface molecules, and its defects lead to X-linked immune deficiency in mice and X-linked agammaglobulinemia in humans. In this report, we will describe the identification and characterization of a molecule, BAM11, which binds to the pleckstrin homology domain of Btk. A sequence homology search revealed that BAM11 has 89% homology, at the amino acid level, to human LTG19/ENL, that was originally identified as one of the fusion partners involved in chromosomal translocations of 11q23, MLL/ALL-1/
HRX
, in
leukemia
cells. Deletion mutants demonstrated that the region of BAM11 required for binding to Btk was localized between amino acid residues 240 and 256. Forced expression of a truncated form of BAM11 (amino acids 246-368) inhibited IL-5-induced proliferation by 50%, whereas forced expression of full-length BAM11 in Y16 cells did not affect the IL-5 responsiveness. We have also shown that BAM11 (amino acids 246-368) inhibited the kinase activity of Btk. These results suggest that the binding of BAM11 to Btk plays a regulatory role in the Btk signal transduction pathway. A cell fractionation study and analysis using EGFP-fused Btk protein demonstrated that a proportion of Btk is present within the nucleus.
...
PMID:Identification and characterization of a molecule, BAM11, that associates with the pleckstrin homology domain of mouse Btk. 1100 57
A fragment of the mixed-lineage
leukemia
(MLL) gene (Mll,
HRX
, ALL-1) was identified in a yeast genetic screen designed to isolate proteins that interact with the CREB-CREB-binding protein (CBP) complex. When tested for binding to CREB or CBP individually, this MLL fragment interacted directly with CBP, but not with CREB. In vitro binding experiments refined the minimal region of interaction to amino acids 2829 to 2883 of MLL, a potent transcriptional activation domain, and amino acids 581 to 687 of CBP (the CREB-binding or KIX domain). The transactivation activity of MLL was dependent on CBP, as either adenovirus E1A expression, which inhibits CBP activity, or alteration of MLL residues important for CBP interaction proved effective at inhibiting MLL-mediated transactivation. Single amino acid substitutions within the MLL activation domain revealed that five hydrophobic residues, potentially forming a hydrophobic face of an amphipathic helix, were critical for the interaction of MLL with CBP. Using purified components, we found that the MLL activation domain facilitated the binding of CBP to phosphorylated CREB. In contrast with paradigms in which factors compete for limiting quantities of CBP, these results reveal that two distinct transcription factor activation domains can cooperatively target the same motif on CBP.
...
PMID:MLL and CREB bind cooperatively to the nuclear coactivator CREB-binding protein. 1125 75
The MLL (
HRX
, ALL-1 HTRX) gene at chromosome band 11q23 frequently is rearranged in acute lymphoblastic and myeloblastic
leukemia
. To date, more than 40 different 11q23 abnormalities have been described on the cytogenetic level, and at least 25 of the respective fusion partner genes are cloned. The vast majority of the respective reciprocal translocations generate a chimeric 5'-MLL/partner-3' gene on the derivative 11q23. In this work, we report a unique ins(X;11)(q24;q23) in an infant with acute myeloid leukemia (AML-M2) that fuses the human KIAA0128 gene at Xq24 with MLL. In contrast to the typical reciprocal MLL translocations, however, we provide evidence that the 5'-MLL/KIAA0128-3' fusion resides on Xq24 rather than on 11q23. The KIAA0128 gene encodes the human Septin 6 protein, which contains an ATP-GTP binding motif and three nuclear targeting sequences in its carboxy terminus. The maintenance of the reading frame of the 5'-MLL/KIAA0128-3' mRNA fusion allows for the formation of a novel chimeric protein. Septin 6 is the third member of the Septins that is fused to the MLL protein; the other two are hCDCrel at 22q11 and MSF at 17q25.
...
PMID:An ins(X;11)(q24;q23) fuses the MLL and the Septin 6/KIAA0128 gene in an infant with AML-M2. 1147 64
Acute lymphoblastic leukemias carrying a chromosomal translocation involving the mixed-lineage
leukemia
gene (MLL, ALL1,
HRX
) have a particularly poor prognosis. Here we show that they have a characteristic, highly distinct gene expression profile that is consistent with an early hematopoietic progenitor expressing select multilineage markers and individual HOX genes. Clustering algorithms reveal that lymphoblastic leukemias with MLL translocations can clearly be separated from conventional acute lymphoblastic and acute myelogenous leukemias. We propose that they constitute a distinct disease, denoted here as MLL, and show that the differences in gene expression are robust enough to classify leukemias correctly as MLL, acute lymphoblastic leukemia or acute myelogenous leukemia. Establishing that MLL is a unique entity is critical, as it mandates the examination of selectively expressed genes for urgently needed molecular targets.
...
PMID:MLL translocations specify a distinct gene expression profile that distinguishes a unique leukemia. 1173 95
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