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Query: UMLS:C0677930 (
primary tumor
)
20,210
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Mitogen-activated protein kinase (MAPK) kinase 4 (
MKK4
) is a component of a stress and cytokine-induced signal transduction pathway involving MAPK proteins. The
MKK4
protein has been implicated in activation of JNK1 and p38 MAPK on phosphorylation by conserved kinase pathways. A recent report on the deletion and mutation of the
MKK4
gene in human pancreatic, lung, breast, testicle, and colorectal cancer cell lines suggests an additional role for
MKK4
in tumor suppression. Both the gene function and the infrequency of mutations might be considered atypical for many human tumor suppressor genes, and constitutional DNA was not previously available to determine whether the reported sequence variants had preceded tumor development. Here, we report that homozygous deletions are detected in 2 of 92 pancreatic adenocarcinomas (2%), 1 of 16 biliary adenocarcinomas (6%), and 1 of 22 breast carcinomas (when combined with reported sequence alterations, 3 of 22 or 14%). In addition, in a panel of 45 pancreatic carcinomas prescreened for loss of heterozygosity, one somatic missense mutation of
MKK4
is observed and confirmed in the
primary tumor
(2%). Mapping of the homozygous deletions further indicated
MKK4
to lie at the target of deletion. The finding of a somatic missense mutation in the absence of any other nucleotide polymorphisms or silent nucleotide changes continues to favor
MKK4
as a mutationally targeted tumor suppressor gene. Coexistent mutations of other tumor suppressor genes in
MKK4
-deficient tumors suggest that
MKK4
may participate in a tumor suppressive signaling pathway distinct from DPC4, p16, p53, and BRCA2.
...
PMID:Alterations in pancreatic, biliary, and breast carcinomas support MKK4 as a genetically targeted tumor suppressor gene. 962 70
The introduction of a discontinuous approximately 70-cM portion of human chromosome 17 significantly suppresses the metastatic ability of AT6.1 rat prostate cancer cells without affecting tumorigenicity (M. A. Chekmareva et al., Prostate, 33: 271-280, 1997). We have recently demonstrated that AT6.1 cells containing the approximately 70-cM region (AT6.1-17-4 cells) escape from the
primary tumor
and arrest in the lung but are growth-inhibited unless the metastasis suppressor region is lost (M. A. Chekmareva et al., Cancer Res., 58: 4963-4969, 1998). A series of in vivo studies indicated that the observed growth inhibition was due to the effect of a gene(s) at the metastatic site (M. A. Chekmareva et al., Cancer Res., 58: 4963-4969, 1998). We have now identified the
mitogen-activated protein kinase kinase 4
/stress-activated protein/Erk kinase 1 (
MKK4
/
SEK1
) gene as a candidate metastasis suppressor gene encoded by the approximately 70-cM region. AT6.1 cells were transfected with a
MKK4
/
SEK1
expression construct, and the cells were tested in standard spontaneous metastasis assays. Whereas the metastatic ability of the AT6.1-
MKK4
/
SEK1
cells was significantly reduced as compared with that of transfection controls, the growth rate of the primary tumors was not affected; the average tumor volume at day 29 after injection was approximately 2 cm. Furthermore, histological examination of the lungs of AT6.1-
MKK4
/
SEK1
tumor-bearing animals revealed that the suppression by
MKK4
/
SEK1
is due to an effect at the metastatic site, consistent with the phenotype conferred by the original approximately 70-cM chromosomal region. These studies implicate
MKK4
/
SEK1
as a metastasis suppressor gene encoded by human chromosome 17.
...
PMID:Mitogen-activated protein kinase kinase 4/stress-activated protein/Erk kinase 1 (MKK4/SEK1), a prostate cancer metastasis suppressor gene encoded by human chromosome 17. 1055 23
Advances in clinical, translational, and basic studies of metastasis have identified molecular changes associated with specific facets of the metastatic process. Studies of metastasis suppressor gene function are providing a critical mechanistic link between signaling cascades and biological outcomes. We have previously identified c-Jun NH2-terminal kinase (JNK) kinase 1/mitogen-activated protein kinase (MAPK) kinase 4 (
JNKK1
/
MKK4
) as a prostate cancer metastasis suppressor gene. The
JNKK1
/
MKK4
protein is a dual-specificity kinase that has been shown to phosphorylate and activate the JNK and p38 MAPKs in response to a variety of extracellular stimuli. In this current study, we show that the kinase activity of
JNKK1
/
MKK4
is required for suppression of overt metastases and is sufficient to prolong animal survival in the AT6.1 model of spontaneous metastasis. Ectopic expression of the JNK-specific kinase MKK7 suppresses the formation of overt metastases, whereas the p38-specific kinase MKK6 has no effect. In vivo studies show that both
JNKK1
/
MKK4
and MKK7 suppress the formation of overt metastases by inhibiting the ability of disseminated cells to colonize the lung (secondary site). Finally, we show that
JNKK1
/
MKK4
and MKK7 from disseminated tumor cells are active in the lung but not in the
primary tumor
, providing a biochemical explanation for why their expression specifically suppressed metastasis while exerting no effect on the
primary tumor
. Taken together, these studies contribute to a mechanistic understanding of the context-dependent function of metastasis regulatory proteins.
...
PMID:Suppression of metastatic colonization by the context-dependent activation of the c-Jun NH2-terminal kinase kinases JNKK1/MKK4 and MKK7. 1632 47
In many patients without clinical metastases, cancer cells have already escaped from the
primary tumor
and entered a distant organ. A long-standing question in metastasis research is why some disseminated cancer cells fail to complete steps of metastatic colonization for extended periods of time. Our laboratory identified c-Jun NH(2)-terminal kinase activating kinase 1/
mitogen-activated protein kinase kinase 4
(
JNKK1
/
MKK4
) as a metastasis suppressor protein in a mouse xenograft model of experimental i.p. ovarian cancer metastasis. In this model, expression of
JNKK1
/
MKK4
via activation of p38 delays formation of >or=1-mm implants and prolongs animal survival. Here, we elucidate the time course of this delay as well as the biological mechanisms underpinning it. Using the Gompertz function to model the net accumulation of experimental omental metastases, we show that
MKK4
-expressing implants arise, on average, 30 days later than controls. Quantitative real-time PCR shows that
MKK4
expression does not have a substantial effect on the number of cancer cells initially adhering to the omentum, and terminal deoxyribonucleotidyl transferase-mediated dUTP nick end labeling analysis shows that there is no increase in apoptosis in these cells. Instead, immunohistochemical quantitation of cell cycle proteins reveals that
MKK4
-expressing cells fail to proliferate once they reach the omentum and up-regulate p21, a cell cycle inhibitor. Consistent with the time course data, in vitro kinase assays and in vivo passaging of cell lines derived from macroscopic metastases show that the eventual outgrowth of
MKK4
-expressing cells is not due to a discrete selection event. Rather, the population of
MKK4
-expressing cells eventually uniformly adapts to the consequences of up-regulated
MKK4
signaling.
...
PMID:c-Jun NH2-terminal kinase activating kinase 1/mitogen-activated protein kinase kinase 4-mediated inhibition of SKOV3ip.1 ovarian cancer metastasis involves growth arrest and p21 up-regulation. 1838 22
Metastasis is a complex process divided into a number of steps including detachment of tumor cells from the
primary tumor
, invasion, migration, intravasation, survival in the vasculature, extravasation, and colonization of the secondary site. Proteins that block metastasis without inhibiting
primary tumor
formation are known as metastasis suppressors; examples are NM23, Maspin, KAI1, KISS1, and
MKK4
. Breast cancer metastasis suppressor 1 (BRMS1) was identified as a suppressor of breast cancer metastasis in the late 1990s. In vitro and in vivo studies have confirmed that BRMS1 is a potent metastasis suppressor not limited to breast cancer. However, conflicting clinical observations regarding its role as a metastasis suppressor and its validity as a diagnostic biomarker warrant more in-depth clinical study. In this review, the authors provide an overview of its biology, function, action mechanism and pathological significance.
...
PMID:Recent advances in breast cancer metastasis suppressor 1. 2127 56
