Mitogen-activated Protein Kinase Kinase 4 Expression Research Articles

MKK4 Knockdown Plays a Protective Role in Hemorrhagic Shock-Induced Liver Injury through the JNK Pathway.

Hemorrhagic shock (HS) triggers tissue hypoxia and organ failure during severe blood loss, and the liver is sensitive to HS. Mitogen-activated protein kinase kinase 4 (MKK4) activates the c-Jun NH2-terminal kinase (JNK) pathway, and its expression is upregulated in the serum of HS patients and mouse livers at 1 h post-HS. However, the function of MKK4 in HS-induced liver injury is unclear. The role of MKK4 was investigated in vivo using rat models of HS. Before HS, lentivirus harboring shRNA against MKK4 was injected into rats via the tail vein to knock down MKK4 expression. HS was induced by bloodletting via intubation of the femoral artery followed by resuscitation. The results showed that MKK4 knockdown reduced HS-induced apoptosis in the liver by decreasing Bax expression and the cleavage of caspase 3 and promoting Bcl-2 expression. Moreover, the generation of intracellular reactive oxygen species (ROS) and malondialdehyde (MDA) in the liver was promoted, while superoxide dismutase (SOD) activity was inhibited by HS. However, the effect of HS on oxidative stress was abrogated by MKK4 knockdown. Furthermore, MKK4 knockdown restored MMP and complex I and complex III activities and promoted ATP production, suggesting that HS-induced mitochondrial dysfunction in the liver was ameliorated by MKK4 knockdown. The inhibitory effect of MKK4 knockdown on the phosphorylation and activation of the JNK/c-Jun pathway was confirmed. Overall, MKK4 knockdown may suppress oxidative stress and subsequent apoptosis and improve mitochondrial function in the liver upon HS by inhibiting the JNK pathway. The MKK4/JNK axis was shown to be a therapeutic target for HS-induced liver injury in this study.

Is there any correlation among MKK4 (mitogen-activated protein kinase kinase 4) expression, clinicopathological features, and KRAS/NRAS mutation in colorectal cancer

ABSTRACT Background We aimed to evaluate the correlation between MKK4 expression and clinicopathological features, KRAS/NRAS mutation in colorectal cancer. Methods MKK4 expression was assessed by immunoreactivity score (IRS). Staining intensity(SI) and percentage of positively stained cells (PP) were used for IRS (IRS = SI×PP). Cutoffs were explored with ROC analysis. Patients were grouped as WIR (‘weak immunoreactive’; IRS:0–2) and SIR (‘strong immunoreactive’; IRS: >3). Results We enrolled 95 patients. 63.2% had metastasis. Median follow-up was 31.4 months. KRAS/NRAS mutation rate was 45.2%. Median values for OS, DFS, and PFS were as 31.6, 17.2, and 10.3 months. WIR group had longer OS (p = 0.03). Recurrence rate was 36.8%. Median DFS was longer for recurrent patients in WIR group (p = 0.055). KRAS or NRAS wild-type patients and those with left-sided tumors in WIR group had longer OS (p = 0.029, p = 0.024, p = 0.03). There was no PFS difference (p: 0.15). In correlation analysis, there was a negative correlation between MKK4 expression and KRAS mutation, NRAS mutation, OS, PFS, DFS (r: –0,06; r: –0,02; r: –0,10; r: –0,06; r: –0,34). Only the correlation for MKK4 expression and DFS was significant (p = 0.04). Conclusion MKK4 expression inversely correlates with survival outcomes. Patients with KRAS/NRAS wild-type, left-sided tumors with WIR had longer OS.

Clinicopathological and prognostic significance of MKK4 and MKK7 in resectable pancreatic ductal adenocarcinoma

Mitogen-activated protein kinase kinase 4 (MKK4) and mitogen-activated protein kinase kinase 7 (MKK7) were shown to regulate biological behavior in many malignancies. In pancreatic ductal adenocarcinoma (PDAC), it remains controversial whether MKK4 and MKK7 have pro-oncogenic or tumor-suppressive activities. Furthermore, their clinicopathological and prognostic implications are unknown. In the present study, we detected MKK4 and MKK7 expressions in the nucleus and cytoplasm of resected PDAC tissues from 321 patients by tissue microarray-based immunohistochemistry. Cytoplasmic MKK4 and MKK7 expressions were significantly downregulated, whereas nuclear MKK4 expression was significantly upregulated in tumor tissues compared with nontumor tissues. Tumor cytoplasmic MKK4 and MKK7 expressions were significantly negatively associated with histologic grade. Cytoplasmic MKK4 expression was also negatively correlated with CA19-9 level. By univariate analysis, high cytoplasmic MKK4 expression was significantly associated with longer cancer-specific survival (hazard ratio [HR], 0.705; 95% confidence interval, 0.510-0.974), with a similar trend observed for MKK7 expression. High MKK4 and MKK7 messenger RNA expressions were significantly associated with longer overall survival in The Cancer Genome Atlas database. Although MKK4 expression was not significant in a multivariate Cox regression analysis, combination of MKK4/MKK7 and pN stage was identified as an independent prognostic indicator and had the lowest HR (HR, 0.308; 95% confidence interval, 0.126-0.752). Furthermore, combined analysis of MKK4 and MKK7 greatly increased the prognostic predictive power. In addition, downregulation of MKK4 or MKK7 increased proliferation of pancreatic cancer cells in vitro. In conclusion, high MKK4 expression and its combination with high MKK7 expression both predicted favorable prognosis in resectable PDAC.

Abstract 3277: Increased mitogen-activated protein kinase kinase 4 (MEK4) induces metastasis in an orthotopic murine model of prostate cancer

Abstract Mitogen-activated protein kinase kinase 4 (MEK4) is a dual-specificity kinase that has been implicated in prostate cancer (PCa) progression. Increased MEK4 expression is observed in invasive cancer lesions in human prostate tissue. We have demonstrated the clinical importance of this in vitro, as MEK4 increases human PCa invasion. This phenotype is driven by increased protease production, and not via changes in cell migration. However, it is not known whether MEK4 regulates human PCa metastasis. This is of high importance as MEK4 has shown differential effects in various cancer models in a cell type specific fashion, and may therefore represent an important human PCa specific target. To emulate the situation of sustained altered MEK4 expression in humans, we engineered MEK4 clonal variant cell lines, generating multiple clones each for vector control (VC), increased wild type (WT), and increased constitutively-active mutant MEK4 (CA). Using a murine orthotopic implantation model designed to characterize in vivo behavior, we implanted 75 mice with these clones and demonstrated that both WT and CA MEK4 increase human PCa metastasis to the lung, a clinically relevant site in humans. In the primary tumor, interestingly, WT tumors were not increased compared to VC, while CA tumors were. Additionally, increased MMP-2 and MMP-10 were observed in both WT and CA tumors. However, MMP-9 was increased in WT tumors only, and MMP-13 in CA tumors only. Currently, we are expanding our efforts at characterizing additional molecular changes in primary tumor between these groups. Outside of the primary tumor, we isolated circulating tumor cells in the blood and bone marrow. We are currently characterizing their relevant cellular and molecular parameters. Using a clinically relevant murine model we have shown that increased MEK4 increases human PCa metastasis to the lung and protease production within the primary tumor. Further, a constitutively active phenotype drives tumor growth and circulating tumor cell formation. Citation Format: {Authors}. {Abstract title} [abstract]. In: Proceedings of the 103rd Annual Meeting of the American Association for Cancer Research; 2012 Mar 31-Apr 4; Chicago, IL. Philadelphia (PA): AACR; Cancer Res 2012;72(8 Suppl):Abstract nr 3277. doi:1538-7445.AM2012-3277

Functional and Clinicopathological Analysis of Loss of MKK4 Expression in Endometrial Cancer

Objective: In the current study, we investigated the mechanism relating downregulation of mitogen-activated protein kinase kinase-4 (MKK4) expression to the development of endometrial cancer. Methods: MKK4 expression in endometrial cancer was assessed by immunohistochemistry using 87 paraffin-embedded tissue specimens, and clinical data was collected via a retrospective chart review. MKK4 gene knockdown using silencing RNA and an MKK4 gene transfection system was used to assess MKK4 function in tissue samples of endometrial cancer. Results: Lower expression of MKK4 immunointensity was observed in 63.2% (55/87) of the analyzed tumors. High-grade endometrioid adenocarcinoma (G2 and G3) (p = 0.024), postmenopausal status (p = 0.018), and patient age (≧60) (p = 0.012) were significantly correlated with lower MKK4 expression. Patients with lower MKK4 expression in endometrial cancer tissues tended to have a shorter overall survival (p = 0.197). Using cell growth and anchorage-independent assays, we determined that both the growth and colony-forming ability of MKK4-transfected HEC1B cells, a line with a low endogenous expression of MKK4, were significantly reduced compared to control vector-transfected cells. Overexpression of the MKK4 gene in HEC1B cells resulted in reduced cell migration activity in a simulated wound healing assay. To confirm that MKK4 expression is related to tumor suppressor function, we used 2 independent but complementary approaches. MKK4 gene knockdown in JHEM1 cells, which overexpressed MKK4, increased proliferation activity. Additionally, the engineered expression of MKK4 in Ishikawa cells, a line with low endogenous MKK4 expression, produced a phenotype similar to that of HEC1B. Similar results were produced in tumor xenografts in nude mice. Conclusion: These results indicate that MKK4 acts as a tumor suppressor, and reduced expression of MKK4 may contribute to the development of endometrial cancer.

Loss of MKK4 expression in ovarian cancer: A potential role for the epithelial to mesenchymal transition

In the current study, we investigated the mechanism relating downregulation of mitogen-activated protein kinase kinase 4 (MKK4) expression to development of ovarian cancer. Over-expression of the MKK4 gene in TOV-21 G cells, a line with homozygous deletion of MKK4, resulted in morphologic changes in which cells growing in a scattered, fibroblast-like pattern formed tightly packed colonies. Based on a wound healing assay and a Matrigel invasion assay, we determined that both motility and invasiveness of MKK4-transfected TOV-21G cells were significantly reduced compared to control vector-transfected cells. To confirm that MKK4 expression related to tumor invasion resulted from an epithelial to mesenchymal transition (EMT)-like morphological change, we used 2 independent but complementary approaches. MKK4 gene knockdown in MDAH 2774 cells over-expressing MKK4 increased invasion activity. Additionally, engineered expression of MKK4 in SKOV3 cells, a line with low endogenous MKK4 expression, produced a phenotype similar to that of TOVG-21G. Interestingly, we found that MKK4 upregulation caused downregulation of phosphorylated NF-κB and Twist, as well as upregulation of E-cadherin, in TOVG-21G and SKOV3 cells. Reciprocal results were obtained in MDAH 2774 cells with MKK4 knockdown. Our results suggest that MKK4 downregulation causes increased phosphorylation NF-κB. This promotes Twist over-expression, resulting in E-cadherin downregulation that induces EMT in ovarian cancer.

Increased Adipose Tissue Expression of Proinflammatory CD40, MKK4 and JNK in Patients with Very Severe Chronic Obstructive Pulmonary Disease

Background: CD40, a transmembrane receptor of the tumor necrosis factor gene superfamily, is activated in response to cellular stress, including hypoxia, and orchestrates the process of inflammation via secondary messengers such as mitogen-activated protein kinase kinase 4 (MKK4) and c-Jun NH₂-terminal kinases (JNK). Objectives: We hypothesized that CD40, MKK4 and JNK expression is increased in the adipose tissue of patients with very severe chronic obstructive pulmonary disease (COPD). Methods: In 20 patients with stable COPD, lung function was assessed using body plethysmography, and samples of subcutaneous adipose tissue were analyzed using real-time PCR. Body composition, including fat mass index (FMI), was assessed by bioelectrical impedance. Results: 12 patients in GOLD stage I–III (age 61.6 ± 8.6 years, 4 females, mean partial pressure of oxygen in arterial blood, PaO₂, 9.38 ± 0.21 kPa) were compared to 8 patients in GOLD stage IV (age 62.6 ± 6.3 years, all male, mean PaO₂ 7.70 ± 0.37 kPa). Compared to patients in GOLD stage I–III, patients in GOLD stage IV had lower FMI (p = 0.004), being associated with significantly higher adipose tissue expression of CD40, MKK4 and JNK [ΔΔCt: 2.55 (1.99, 4.40) vs. 1.87 (1.63, 2.23), p = 0.013; 5.19 (3.13, 5.96) vs. 2.98 (2.82, 3.86), p = 0.002; 9.01 (5.12, 11.41) vs. 4.65 (4.42, 6.26), p = 0.001, respectively]. Log-transformed CD40, MKK4 and JNK expression was significantly inversely related to PaO₂, respectively. Conclusions: Upregulation of proinflammatory CD40, MKK4 and JNK gene expression in adipose tissue in very severe COPD raises the possibility of a role of chronic systemic hypoxia in the pathogenesis of adipose tissue inflammation in COPD.

Mitogen-activated Protein Kinase Kinase-4 Promotes Cell Survival by Decreasing PTEN Expression through an NFκB-dependent Pathway

Mitogen-activated protein kinase kinase-4 (MKK4/SEK1) cooperates with phosphatidylinositol 3-kinase to maintain the survival of non-small cell lung cancer (NSCLC) cells, but the biochemical basis of this phenomenon has not been elucidated. Here we used genetic approaches to modulate MKK4 expression in mouse embryo fibroblasts (MEF cells) and NSCLC cells to identify prosurvival signals downstream of MKK4. Relative to wild-type MEF cells, MKK4-null MEF cells were highly susceptible to apoptosis by LY294002, paclitaxel, or serum starvation. MKK4 promoted the survival of MEF cells by decreasing the expression of phosphatase and tensin homologue deleted from chromosome 10 (PTEN). MKK4 inhibited PTEN transcription by activating NFkappaB, a transcriptional suppressor of PTEN. MKK4 was required for nuclear translocation of RelA/p65 and processing of the NFkappaB2 precursor (p100) into the mature form (p52). Studies on a panel of NSCLC cell lines revealed a subset with high MKK4/high NFkappaB/low PTEN that was relatively resistant to apoptosis. Thus, MKK4 promotes cell survival by activating phosphatidylinositol 3-kinase through an NFkappaB/PTEN-dependent pathway.

Homozygous deletion of MKK4 in ovarian serous carcinoma

Analysis of deleted chromosomal regions in tumors has historically led to the identification of tumor suppressor genes. In this study, we used digital karyotyping, a genome-wide, high-resolution technology, to search for chromosomal deletions in ovarian serous carcinoma, the most lethal gynecological malignancy in women. Five purified ovarian serous carcinomas were analyzed by digital karyotyping and small interstitial deletions at chromosome 17p were identified in two tumor samples. Aligning these two deletions identified an overlapping region that spanned 2.4 Mb which harbored a candidate tumor suppressor gene, mitogen-activated protein kinase kinase-4 (MKK4). Dual-color FISH analysis confirmed homozygous deletion of the MKK4 locus in both samples and RT-PCR demonstrated that both carcinomas lacked MKK4 transcript expression. Loss of heterozygosity of 17p occurred in 24 (86%) of 28 high-grade serous carcinomas including both cases with homozygous MKK4 deletion. Additionally, downregulation of MKK4 expression was found in 96 (75%) of 128 ovarian serous carcinomas as compared to benign ovarian tissues. These findings suggest that homozygous deletion or reduced expression of MKK4 may contribute to the development of ovarian serous carcinoma.

Claudin-4, Mitogen-Activated Protein Kinase Kinase 4, and Stratifin Are Markers of Gastric Adenocarcinoma Precursor Lesions

Approximately 23,000 new gastric cancer cases and 12,000 associated deaths occur annually in the United States. Intestinal metaplasia and gastric epithelial dysplasia are precursor lesions to gastric adenocarcinoma, but are not readily detectable clinically, radiographically, or endoscopically. A noninvasive method of precursor detection would require the ability to distinguish precursor lesions from adjacent normal mucosa. In search of such markers, tissue microarrays were prepared for 133 patients of resected gastric adenocarcinoma. Tissue microarrays contained primary cancer, normal stomach, intestinal metaplasia, and gastric epithelial dysplasia and were probed with antibodies against nine potential markers that were either identified in a database of genes overexpressed in gastric adenocarcinoma or were already of interest to our laboratory: claudin-4, mitogen-activated protein kinase kinase 4 (MKK4), 14-3-3sigma (stratifin), S100A4, mesothelin, fascin, topoisomerase IIalpha, HER-2/neu, and epithelial growth factor receptor. Three markers discriminated gastric adenocarcinoma precursor lesions from normal gastric mucosa. Claudin-4 expression was present in 36 intestinal metaplasia lesions (100%) and 14 gastric epithelial dysplasia lesions (100%), but in only 16 normal stomach samples (15%). MKK4 expression was present in 24 intestinal metaplasia lesions (89%) and 12 gastric epithelial dysplasia lesions (100%), but in only 6 normal stomach samples (8%). Stratifin expression was present in 29 intestinal metaplasia lesions (97%) and 8 gastric epithelial dysplasia lesions (100%), but in only 2 normal stomach samples (3%). Sensitivity and specificity for detection of the precursor lesion intestinal metaplasia were 100% and 85%, respectively, for claudin-4; 89% and 92%, respectively, for MKK4; and 97% and 97%, respectively, for stratifin. In primary cancers, 123 of 125 (98.4%) were positive for claudin-4, 116 of 126 (94%) for MKK4, and 111 of 120 (92%) for stratifin. In conclusion, claudin-4, MKK4, and stratifin immunolabeling detects precursor lesions of gastric adenocarcinoma that are otherwise clinically, radiographically, and endoscopically inapparent. These findings may prove useful in the diagnosis and therapeutic targeting of gastric adenocarcinoma precursor lesions.

Expression and mutation analyses of MKK4, a candidate tumour suppressor gene encoded by chromosome 17p, in human gastric adenocarcinoma

Homozygous deletion or somatic mutations of mitogen-activated protein kinase kinase 4 (MKK4), a candidate tumour suppressor gene located at 17p11, have been observed in many types of human tumours. To explore the likelihood that MKK4 acts as a suppressor in gastric tumorigenesis, we examined the expression and mutation status of MKK4 in 144 gastric tissues and cell line specimens. Expression of the MKK4 transcript was easily detectable in all normal and benign tumour tissues and none of 102 primary carcinomas and cell lines showed an abnormal reduction in MKK4 expression. Expression levels of MKK4 transcript showed no cancer-specific reduction in 43 matched sets and did not correlate with stage, grade and histopathological types of the tumours. Western blot analysis also revealed that MKK4 protein expression in carcinoma tissues and cell lines is comparable to non-cancerous tissues. A significant loss of heterozygosity (LOH) was detected at telomeric markers of the MKK4, locus. However, no allelic deletion of the MKK4 gene or at the centromeric loci was identified. Moreover, no evidences for somatic mutations leading to amino acid substitutions or frameshifts of MKK4 were identified in the carcinoma tissues and cell lines, whereas a substantial fraction of the same set showed allelic loss or mutations of the TP53 gene located at 17p13, suggesting that LOH at telomeric loci or the TP53 locus might not extend into the MKK4 gene in gastric cancers. In this study, we also report the identification of a highly conserved MKK4 processed pseudogene, which shares 95% homology with the coding region of the functional MKK4 transcript. Collectively, our data demonstrate that genomic deletion or somatic mutation of MKK4 is infrequent in gastric cancers, suggesting that MKK4 might not be a critical target of genetic inactivation in gastric tumorigenesis.

Mitogen-Activated Protein Kinase Kinase 4 (MKK4)

The Mitogen-Activated Protein Kinase Kinase 4 (MKK4), a member of the MAP kinase kinase family, directly phosphorylates and activates the c-Jun NH2-terminal kinases (JNK), in response to cellular stresses and proinflammatory cytokines. JNK is a member of the MAP kinase family and a key component of a stress activated protein kinase signalling pathway. MKK4 mRNA is widely expressed in adult mouse tissues, but is especially abundant in skeletal muscle and brain. Mice lacking the MKK4 gene had abnormal hepatogenesis and died before embryonic day 14. However cell lines lacking MKK4 have been obtained and these exhibited defective activation of JNK and AP-1 dependent transcription activity in response to some, but not all cellular stresses. Furthermore, T lymphocytes deficient in MKK4 showed impaired IL-2 production following activation of the T cell receptor, suggesting a key role of the MKK4/JNK pathway in inflammation. The mutation of the MKK4 gene in some carcinomas indicates that it may also have a role as a tumor suppressor. Control of the MKK4 activity and expression may provide novel approaches to cancer or anti-inflammatory therapy.