miR-381, a novel intrinsic WEE1 inhibitor, sensitizes renal cancer cells to 5-FU by up-regulation of Cdc2 activities in 786-O.

BACKGROUND: Few researches on increase of chemotherapy sensitivity by microRNA (miRNA) were reported. We aim to investigate exact role of miR-381 in chemotherapy sensitivity of 5-fluorouracil (5-FU) in renal cancer cells. METHODS: We investigated the cell survival, cell-cycle and apoptosis of 786-O and HK-2 cells treated with miR-381 and 5-FU. IC50 of 5-FU was calculated. To study apoptosis and G2/M arrest, we determined pHH3, mitotic index and caspase-3/7 activity. RESULTS: We showed that miR-381 combined with 5-FU inhibited proliferation and potentiated the anti-tumour efficacies of 5-FU at tolerated concentration in vitro. miR-381 combined with 5-FU led to Cdc2 activation, mitotic catastrophe, and cell apoptosis through inhibitory WEE1. WEE1 was also validated as the direct target of miR-381. IC50 of 5-FU decreased significantly in the presence of miR-381. CONCLUSION: miR-381 increases sensitivity of 786-O cells to 5-FU by inhibitory WEE1 and increase of Cdc2 activity.

Simultaneously expressed miR-424 and miR-381 synergistically suppress the proliferation and survival of renal cancer cells---Cdc2 activity is up-regulated by targeting WEE1.

OBJECTIVES: MiRNAs are intrinsic RNAs that interfere with protein translation. Few studies on the synergistic effects of miRNAs have been reported. Both miR-424 and miR-381 have been individually reported to be involved in carcinogenesis. They share a common putative target, WEE1, which is described as an inhibitor of G2/M progression. Here, we studied the synergistic effects of miR-424 and miR-381 on renal cancer cells. METHODS: The viability of 786-O cells was analyzed after transfection with either a combination of miR-424 and miR-381 or each miRNA alone. We investigated cell cycle progression and apoptosis with flow cytometry. To confirm apoptosis and the abrogation of G2/M arrest, we determined the level of pHH3, which is an indicator of mitosis, and caspase-3/7 activity. The expression levels of WEE1, Cdc25, γH2AX, and Cdc2 were manipulated to investigate the roles of these proteins in the miRNA-induced anti-tumor effects. To verify that WEE1 was a direct target of both miR-424 and miR-381, we performed a dual luciferase reporter assay. RESULTS: We showed that the combination of these miRNAs synergistically inhibited proliferation, abrogated G2/M arrest, and induced apoptosis. This combination led to Cdc2 activation through WEE1 inhibition. This regulation was more effective when cells were treated with both miRNAs than with either miRNA alone, indicating synergy between these miRNAs. WEE1 was verified to be a direct target of each miRNA according to the luciferase reporter assay. CONCLUSIONS: These data clearly demonstrate that these two miRNAs might synergistically act as novel modulators of tumorigenesis by down-regulating WEE1 expression in renal cell cancer cells.

Simultaneously expressed miR-424 and miR-381 synergistically suppress the proliferation and survival of renal cancer cells---Cdc2 activity is up-regulated by targeting WEE1

OBJECTIVES: MiRNAs are intrinsic RNAs that interfere with protein translation. Few studies on the synergistic effects of miRNAs have been reported. Both miR-424 and miR-381 have been individually reported to be involved in carcinogenesis. They share a common putative target, WEE1, which is described as an inhibitor of G2/M progression. Here, we studied the synergistic effects of miR-424 and miR-381 on renal cancer cells. METHODS: The viability of 786-O cells was analyzed after transfection with either a combination of miR-424 and miR-381 or each miRNA alone. We investigated cell cycle progression and apoptosis with flow cytometry. To confirm apoptosis and the abrogation of G2/M arrest, we determined the level of pHH3, which is an indicator of mitosis, and caspase-3/7 activity. The expression levels of WEE1, Cdc25, γH2AX, and Cdc2 were manipulated to investigate the roles of these proteins in the miRNA-induced anti-tumor effects. To verify that WEE1 was a direct target of both miR-424 and miR-381, we performed a dual luciferase reporter assay. RESULTS: We showed that the combination of these miRNAs synergistically inhibited proliferation, abrogated G2/M arrest, and induced apoptosis. This combination led to Cdc2 activation through WEE1 inhibition. This regulation was more effective when cells were treated with both miRNAs than with either miRNA alone, indicating synergy between these miRNAs. WEE1 was verified to be a direct target of each miRNA according to the luciferase reporter assay. CONCLUSIONS: These data clearly demonstrate that these two miRNAs might synergistically act as novel modulators of tumorigenesis by down-regulating WEE1 expression in renal cell cancer cells. .

A new marker, SOX11, aids the diagnosis of mantle cell lymphoma in the prostate: A case report.

Mantle cell lymphoma (MCL) of the prostate, either primary or secondary, is a rare entity. This case report examines an 83-year-old male who complained of not only nocturia (2-3 times), but also frequency and urgency of urination. The maximal urinary flow rate was 4.1 ml/sec. A transrectal ultrasound-guided prostate biopsy was advised after a hard enlargement of the prostate was detected; however, it was refused. Therefore, a plasma kinetic transurethral resection of the prostate was performed. Postoperative pathological examinations demonstrated MCL of the prostate. Positive immunohistochemistry for CD5 and cyclin D1 was observed. The diagnosis was confirmed by the introduction of a new diagnostic marker, SOX11. The maximal flow rate achieved was 15 ml/sec following surgery. To the best of our knowledge, this is the first study of MCL being diagnosed using SOX11 as a marker in the prostate. This case should alert clinicians and pathologists to pay close attention to the diagnosis of malignant lymphoma of the prostate. This study provides further insights into the diagnosis and therapy of MCL.