MiR‐485‐3p modulates neural stem cell differentiation and proliferation via regulating TRIP6 expression

Recent references have showed crucial roles of several miRNAs in neural stem cell differentiation and proliferation. However, the expression and role of miR‐485‐3p remains unknown. In our reference, we indicated that miR‐485‐3p expression was down‐regulated during NSCs differentiation to neural and astrocytes cell. In addition, the TRIP6 expression was up‐regulated during NSCs differentiation to neural and astrocytes cell. We carried out the dual‐luciferase reporter and found that overexpression of miR‐485‐3p decreased the luciferase activity of pmirGLO‐TRIP6‐wt but not the pmirGLO‐TRIP6‐mut. Ectopic expression of miR‐485‐3p decreased the expression of TRIP6 in NSC. Ectopic miR‐485‐3p expression suppressed the cell growth of NSCs and inhibited nestin expression of NSCs. Moreover, elevated expression of miR‐485‐3p decreased the ki‐67 and cyclin D1 expression in NSCs. Furthermore, we indicated that miR‐485‐3p reduced proliferation and induced differentiation of NSCs via targeting TRIP6 expression. These data suggested that a crucial role of miR‐485‐3p in self‐proliferation and differentiation of NSCs. Thus, altering miR‐485‐3p and TRIP6 modulation may be one promising therapy for treating with neurodegenerative and neurogenesis diseases.     

miR‐203 inhibits proliferation of HCC cells by targeting survivin

To validate whether down‐regulation of microRNA‐203 (miR‐203) in hepatocellular carcinoma (HCC) is involved in HCC progression by targeting survivin. MiR‐203 mimics was transfected into HepG2 cells to enhance miR‐203 expression, and miR‐203 inhibitor was transfected into HepG2 cells to inhibit miR‐203 expression. The effect of up‐regulation and down‐regulation of miR‐203 on survivin expression of HepG2 cells was evaluated using Western blot assay. The effect of miR‐203 or survivin expression on the proliferation of HepG2 cells was detected using the CKK‐8 assay. Over‐expression of miR‐203 significantly inhibited the expression of survivin in HepG2 cells (p < 0·05), and down‐expression of miR‐203 significantly promoted the expression of survivin in HepG2 cells (p < 0·05). Both over‐expression of miR‐203 and down‐regulation of survivin suppressed proliferation of HepG2 cells significantly compared with negative control. Low expression of miR‐203 contributes to the progression of HCC via targeting survivin. Copyright © 2012 John Wiley & Sons, Ltd.     

LncRNA HOXA11‐AS promotes hepatocellular carcinoma progression by repressing miR‐214‐3p

Accumulating studies supported that lncRNAs played important roles in tumorigenesis. LncRNA HOXA11‐AS was a novel lncRNA that has been proved to involved in several tumours. However, the role of HOXA11‐AS in the development of hepatocellular carcinoma (HCC) remains to be explained. In our study, we showed that HOXA11‐AS expression was up‐regulated in the HCC tissues, and the higher expression of HOXA11‐AS was associated with the advanced stage in the HCC samples. In addition, we indicated that the expression of HOXA11‐AS was up‐regulated in HCC cell lines (Hep3B, SMMC‐7721, MHCC97‐H and BEL‐7402) compared with normal liver cell lines (HL‐7702). Overexpression of HOXA11‐AS promoted HCC proliferation and invasion and induced the epithelial‐mesenchymal transition (EMT) and knockdown of HOXA11‐AS suppressed the HCC cell proliferation and invasion. However, we showed that miR‐214‐3p expression was down‐regulated in the HCC tissues and cell lines. Ectopic expression of miR‐214‐3p suppressed HCC cell proliferation and invasion. Furthermore, we indicated that overexpression of HOXA11‐AS decreased the miR‐214‐3p expression and the expression of miR‐214‐3p was negatively related with the HOXA11‐AS expression in HCC samples. Ectopic expression of HOXA11‐AS increased HCC proliferation and invasion and induced EMT through inhibiting miR‐214‐3p expression. These data suggested that HOXA11‐AS/miR‐214‐3p axis was responsible for development of HCC.     

miR‐542‐3p prevents ovariectomy‐induced osteoporosis in rats via targeting SFRP1

Secreted frizzled‐related protein‐1 (SFRP1) is a negative regulatory molecule of the WNT signaling pathway and serves as a therapeutic target for bone formation in osteoporosis. In this study, we first established an ovariectomized (OVX) rat model to simulate postmenopausal osteoporosis and found significant changes in miR‐542‐3p and sFRP1 expression by RNA sequencing and qRT‐PCR. In addition, there was a significant negative correlation between miR‐542‐3p and sFRP1 mRNA levels in postmenopausal women with osteoporosis. We found that miR‐542‐3p inhibited the expression of sFRP1 mRNA by luciferase reporter assay. When the miR‐542‐3p binding site in sFRP1 3'UTR was deleted, it did not affect its expression. Western blot results showed that miR‐542‐3p inhibited the expression of SFRP1 protein. The expression of SFRP1 was significantly increased in osteoblast‐induced mesenchymal stem cells (MSC), whereas the expression of miR‐542‐3p was significantly decreased. And miR‐542‐3p transfected MSCs showed a significant increase in osteoblast‐specific marker expression, indicating that miR‐542‐3p is necessary for MSC differentiation. Inhibition of miR‐542‐3p reduced bone formation, confirmed miR‐542‐3p play a role in bone formation in vivo. In general, these data suggest that miR‐542‐3p play an important role in bone formation via inhibiting SFRP1 expression and inducing osteoblast differentiation.     

Derepression of c‐Fos caused by MicroRNA‐139 down‐regulation contributes to the metastasis of human hepatocellular carcinoma

This study investigates whether the anti‐metastasis effect of microRNA‐139 (miR‐139) on hepatocellular carcinoma (HCC) is mediated through regulating c‐fos expression. The expression levels of miR‐139 and c‐fos in human HCC cell sublines with high (MHCC97H) and low (MHCC97L) spontaneous metastatic potentials were quantified using QPCR or Western blot. miR‐139 mimics was transfected into MHCC97H cells to overexpress miR‐139, and miR‐139 inhibitor was transfected into MHCC97L cells to down‐express miR‐139. The effect of overexpression or down‐expression of miR‐139 on c‐fos expression of MHCC97H and MHCC97L cells was evaluated using QPCR and Western blot. The 3′ untranslated region segments of FOS containing the miR‐139 binding sites were amplified by PCR, and the luciferase activity in the transfected cells was assayed. In comparison with the expression level of miR‐139 in MHCC97L cells, the expression level in MHCC97H cells was significantly decreased, whereas c‐Fos was significantly up‐regulated in MHCC97H. The overexpression of miR‐139 significantly inhibited the expression of c‐fos in MHCC97H cells, and the down‐expression of miR‐139 significantly promoted the expression of c‐fos in MHCC97L cells. miR‐139 suppressed the luciferase activity of the pGL‐FOS by approximately 40% compared with the negative control. In vitro cell migration analysis demonstrated that depletion of c‐fos or overexpression of miR‐139 in MHCC97H cells reduced cell migration, whereas overexpression of c‐fos or depletion of miR‐139 in MHCC97L cells increased cell migration. Thus, we got the conclusion that miR‐139 expression is down‐regulated in human HCC cell sublines with high spontaneous metastatic potentials (MHCC97H). Derepression of c‐Fos caused by miR‐139 down‐regulation contributes to the metastasis of HCC. Copyright © 2012 John Wiley & Sons, Ltd.     

A comparison of honeybee (Apis mellifera) queen,worker and drone larvae by RNA‐Seq

Honeybees (Apis mellifera) have haplodiploid sex determination: males develop from unfertilized eggs and females develop from fertilized ones. The differences in larval food also determine the development of females. Here we compared the total somatic gene expression profiles of 2-day and 4-day-old drone, queen and worker larvae by RNASeq. The results from a co-expression network analysis on all expressed genes showed that 2-day-old drone and worker larvae were closer in gene expression profiles than 2-day-old queen larvae. This indicated that for young larvae (2-day-old) environmental factors such as larval diet have a greater effect on gene expression profiles than ploidy or sex determination. Drones had the most distinct gene expression profiles at the 4-day larval stage, suggesting that haploidy, or sex dramatically affects the gene expression of honeybee larvae. Drone larvae showed fewer differences in gene expression profiles at the 2-day and 4-day time points than the worker and queen larval comparisons (598 against 1190 and 1181), suggesting a different pattern of gene expression regulation during the larval development of haploid males compared to diploid females. This study indicates that early in development the queen caste has the most distinct gene expression profile, perhaps reflecting the very rapid growth and morphological specialization of this caste compared to workers and drones. Later in development the haploid male drones have the most distinct gene expression profile, perhaps reflecting the influence of ploidy or sex determination on gene expression.     

The odontogenic ameloblast‐associated protein (ODAM) cooperates with RUNX2 and modulates enamel mineralization via regulation of MMP‐20

We have previously reported that the odontogenic ameloblast‐associated protein (ODAM) plays important roles in enamel mineralization through the regulation of matrix metalloproteinase‐20 (MMP‐20). However, the precise function of ODAM in MMP‐20 regulation remains largely unknown. The aim of the present study was to uncover the molecular mechanisms responsible for MMP‐20 regulation. The subcellular localization of ODAM varies in a stage‐specific fashion during ameloblast differentiation. During the secretory stage of amelogenesis ODAM was localized to both the nucleus and cytoplasm of ameloblasts. However, during the maturation stage of amelogenesis, ODAM was observed in the cytoplasm and at the interface between ameloblasts and the enamel layer, but not in the nucleus. Secreted ODAM was detected in the conditioned medium of ameloblast‐lineage cell line (ALC) from days 14 to 21, which coincided with the maturation stage of amelogenesis. Interestingly, the expression of Runx2 and nuclear ODAM correlated with MMP‐20 expression in ALC. We therefore examined whether ODAM cooperates with Runx2 to regulate MMP‐20 and modulate enamel mineralization. Increased expression of ODAM and Runx2 augmented MMP‐20 expression, and Runx2 expression enhanced expression of ODAM, although overexpression of ODAM did not influence Runx2 expression. Conversely, loss of Runx2 in ALC decreased ODAM expression, resulting in down‐regulation of MMP‐20 expression. Increased MMP‐20 expression accelerated amelogenin processing during enamel mineralization. Our data suggest that Runx2 regulates the expression of ODAM and that nuclear ODAM serves an important regulatory function in the mineralization of enamel through the regulation of MMP‐20 apart from a different, currently unidentified, function of extracellular ODAM. J. Cell. Biochem. 111: 755–767, 2010. © 2010 Wiley‐Liss, Inc.     

Laminar shear stress elicit distinct endothelial cell e‐selectin expression pattern via TNFα and IL‐1β activation

The ability to discriminate cell adhesion molecule expression between healthy and inflamed endothelium is critical for therapeutic intervention in many diseases. This study explores the effect of laminar flow on TNFα‐induced E‐selectin surface expression levels in human umbilical vein endothelial cells (HUVECs) relative to IL‐1β‐induced expression via flow chamber assays. HUVECs grown in static culture were either directly (naïve) activated with cytokine in the presence of laminar shear or pre‐exposed to 12 h of laminar shear (shear‐conditioned) prior to simultaneous shear and cytokine activation. Naïve cells activated with cytokine in static served as control. Depending on the cell shear history, fluid shear is found to differently affect TNFα‐induced relative to IL‐1β‐induced HUVEC expression of E‐selectin. Specifically, E‐selectin surface expression by naïve HUVECs is enhanced in the 8–12 h activation time range with simultaneous exposure to shear and TNFα (shear‐TNFα) relative to TNFα static control whereas enhanced E‐selectin expression is observed in the 4–24 h range for shear‐IL‐1β treatment relative to IL‐1β static control. While exposure of HUVECs to shear preconditioning mutes shear‐TNFα‐induced E‐selectin expression, it enhances or down‐regulates shear‐IL‐1β‐induced expression dependent on the activation period. Under dual‐cytokine‐shear conditions, IL‐1β signaling dominates. Overall, a better understanding of E‐selectin expression pattern by human ECs relative to the combined interaction of cytokines, shear profile and history can help elucidate many disease pathologies. Biotechnol. Bioeng. 2013; 110: 999–1003. © 2012 Wiley Periodicals, Inc.     

Loss of tenascin X gene function impairs injury‐induced stromal angiogenesis in mouse corneas

To determine the contribution by tenascin X (Tnx) gene expression to corneal stromal angiogenesis, the effects were determined of its loss on this response in TNX knockout (KO) mice. In parallel, the effects of such a loss were evaluated on vascular endothelial growth factor (VEGF) and transforming growth factor β1 (TGFβ1) gene and protein expression in fibroblasts and macrophages in cell culture. Histological, immunohistochemical and quantitative RT‐PCR changes determined if Tnx gene ablation on angiogenic gene expression, inflammatory cell infiltration and neovascularization induced by central corneal stromal cauterization. The role was determined of Tnx function in controlling VEGF‐A or TGFβ1 gene expression by comparing their expression levels in ocular fibroblasts and macrophages obtained from wild‐type (WT) and body‐wide Tnx KO mice. Tnx was up‐regulated in cauterized cornea. In Tnx KO, macrophage invasion was attenuated, VEGF‐A and its cognate receptor mRNA expression along with neovascularization were lessened in Tnx KOs relative to the changes occurring in their WT counterpart. Loss of Tnx instead up‐regulated in vivo mRNA expression of anti‐angiogenic VEGF‐B but not VEGF‐A. On the other hand, TGFβ1 mRNA expression declined in Tnx KO cultured ocular fibroblasts. Loss of Tnx gene expression caused VEGF‐A expression to decline in macrophages. Tnx gene expression contributes to promoting TGFβ1 mRNA expression in ocular fibroblasts and VEGF‐A in macrophages, macrophage invasion, up‐regulation of VEGF‐A expression and neovascularization in an injured corneal stroma. On the other hand, it suppresses anti‐angiogenic VEGF‐B mRNA expression in vivo.     

miR‐4709 overexpression facilitates cancer proliferation and invasion via downregulating NR3C2 and is an unfavorable prognosis factor in colon adenocarcinoma

To date, microRNA‐4709 (miR‐4709) has not been studied in colon adenocarcinoma (COAD) on the basis of experiments. In our study, we aimed to investigate the biological roles and clinical significance of miR‐4709 in COAD. The expression difference between miR‐4709 and NR3C2 was measured based on The Cancer Genome Atlas database and cells. Kaplan‐Meier and logrank tests were applied to determine the overall survival (OS) differences according to the miR‐4709 and NR3C2 expression levels. To measure whether the miR‐4709 level was associated with COAD cell growth, migration, and invasion, we respectively conducted 3‐(4,5‐dimethylthiazol‐2‐yl)‐2,5‐diphenyltetrazolium bromide, wound healing, and transwell assays. A luciferase reporter assay was applied to confirm the relationship between miR‐4709 and its predicted target. High expression of miR‐4709 was found in COAD tissues and cells. The OS rate in the miR‐4709 low expression group was significantly higher than that in the miR‐4709 high expression group. Univariate and multivariate analyses exhibited that miR‐4709 expression was an independent adverse prognostic factor. Exogenous miR‐4709 overexpression promoted proliferation, migration, and invasion of LOVO and SW480 cells. Bioinformatics analysis and luciferase assay demonstrated that miR‐4709 directly binds to the 3′‐untranslated region of NR3C2. NR3C2 was lowly expressed in COAD and high expression of NR3C2 had a better prognosis compared with that in the low expression of NR3C2. Correlation analysis showed that there is a close association between the level of expression of NR3C2 and miR‐4709. Accordingly, miR‐4709 may function as an oncogene in COAD and provide a preclinical proof for candidate management to target new miR‐4709‐NR3C2 signaling for COAD therapy.     

Expression and regulation of LRP‐2/megalin in epithelial cells lining the efferent ducts and epididymis during postnatal development

Low density lipoprotein receptor‐related protein‐2/megalin (LRP‐2) is a receptor belonging to the low density lipoprotein receptor family that mediates endocytosis and lysosomal degradation of a variety of ligands including apolipoprotein J (Apo J)/clusterin/SGP‐2. LRP‐2 has been shown to be expressed regionally in the adult rat epididymis. In this study, we describe the pattern of expression of LRP‐2 in the efferent ducts and epididymis during postnatal development of the rat and examine the role of testicular luminally derived substances on its expression. The expression of LRP‐2 was analyzed immunocytochemically in tissues of normal animals ranging in age from postnatal day 7–90 and in 15‐day‐old efferent‐duct‐ligated animals sacrificed at later ages. In the efferent ducts, LRP‐2 expression, appearing as a dense band on the apical surface of the nonciliated epithelial cells, was noted as early as day 7, well before the entry of sperm, Sertoli‐cell‐derived secretory products, and high levels of androgens. Efferent duct ligation studies further revealed that expression under this condition was comparable to controls at all later ages examined, suggesting that the factor regulating its expression was not a luminally derived testicular substance. In normal untreated animals, LRP‐2 expression was not apparent at any of the ages examined in the proximal initial segment of the epididymis. By comparison, the distal initial segment, although having no LRP‐2 expression from 7–15 days, showed expression in principal cells by day 21 which intensified at days 29 and 39. However, by day 49 and at later ages (56 and 90), LRP‐2 immunoreactivity over principal cells became spotty or with weak or moderate reactivity in some cells and none in others. LRP‐2 expression in the intermediate zone, proximal caput, corpus, and cauda regions also appeared in principal cells by day 21, intensified at days 29 and 39 and persisted as such at all later ages examined, correlating with high levels of androgens shown to occur by day 39. Although LRP‐2 expression in the distal caput region was evident in principal cells at days 21 and 29, it became spotty with weak, moderate, or absent reactivity over principal cells at all later ages. These data suggest that LRP‐2 expression is under the influence of both stimulatory and region‐specific inhibitory factors. Analysis of 15‐day‐old efferent‐duct‐ligated animals at all later ages examined revealed that there was no change in LRP‐2 expression along the entire epididymis, suggesting that both the stimulatory and inhibitory factors are not luminally derived testicular substances. The observed pattern of LRP‐2 expression in all regions of the epididymis, except the distal caput region, was similar to that described for Apo J internalization by principal cells during postnatal development, showing a correlation between LRP‐2 expression and its ligand, Apo J. In summary, LRP‐2 expression in the epididymis undergoes region‐specific changes during postnatal development and appears to be influenced by both stimulatory and inhibitory factors. Mol. Reprod. Dev. 53:282–293, 1999. © 1999 Wiley‐Liss, Inc.     

Fibroblast growth factor‐2 and interleukin‐4 synergistically induce eotaxin‐1 expression in adipose tissue‐derived stromal cells

The relationships between eosinophils and adipose tissues are involved in metabolic homeostasis. Eotaxin is a chemokine with potent effects on eosinophil migration. To clarify the mechanisms of eotaxin expression in adipose tissues, we examined the effects of fibroblast growth factor‐2 (FGF‐2) and interleukin‐4 (IL‐4) stimulation on eotaxin expression in adipose tissue‐derived stromal cells (ASCs), a type of adipocyte progenitor, in vitro. ASCs expressed eotaxin‐1 and did not express eotaxin‐2 or ‐3. Eotaxin‐1 expression was increased in a concentration‐dependent manner following FGF‐2 treatment. Additionally, ASCs expressed FGF receptor‐1 (FGFR‐1) and did not express FGFR‐2, ‐3, or ‐4. Eotaxin‐1 expression was inhibited in cells treated with the FGFR tyrosine kinase inhibitor and extracellular signal‐regulated kinase (ERK) inhibitor U0126, even in the presence of FGF‐2. Moreover, eotaxin‐1 expression was synergistically enhanced by combined treatment with FGF‐2 and IL‐4 and inhibited in the presence of U0126. Eotaxin‐1 expression induced by FGF‐2 and IL‐4 was involved in ERK activation via FGFR‐1 in ASCs. Upregulation of eotaxin expression in adipose tissues could increase eosinophil migration, thereby inducing IL‐4 secretion and activation of alternative macrophages and improving glucose homeostasis. These findings provide insights into the mechanisms through which eotaxin mediates metabolic homeostasis in adipose tissues and eosinophils.     

α5‐nAChR contributes to epithelial‐mesenchymal transition and metastasis by regulating Jab1/Csn5 signalling in lung cancer

Recent studies have showed that α5 nicotinic acetylcholine receptor (α5‐nAChR) is closely associated with nicotine‐related lung cancer. Our previous studies also demonstrated that α5‐nAChR mediates nicotine‐induced lung carcinogenesis. However, the mechanism by which α5‐nAChR functions in lung carcinogenesis remains to be elucidated. Jab1/Csn5 is a key regulatory factor in smoking‐induced lung cancer. In this study, we explored the underlying mechanisms linking the α5‐nAChR‐Jab1/Csn5 axis with lung cancer epithelial‐mesenchymal transition (EMT) and metastasis, which may provide potential therapeutic targets for future lung cancer treatments. Our results demonstrated that the expression of α5‐nAChR was correlated with the expression of Jab1/Csn5 in lung cancer tissues and lung cancer cells. α5‐nAChR expression is associated with Jab1/Csn5 expression in lung tumour xenografts in mice. In vitro, the expression of α5‐nAChR mediated Stat3 and Jab1/Csn5 expression, significantly regulating the expression of the EMT markers, N‐cadherin and Vimentin. In addition, the down‐regulation of α5‐nAChR or/and Stat3 reduced Jab1/Csn5 expression, while the silencing of α5‐nAChR or Jab1/Csn5 inhibited the migration and invasion of NSCLC cells. Mechanistically, α5‐nAChR contributes to EMT and metastasis by regulating Stat3‐Jab1/Csn5 signalling in NSCLC, suggesting that α5‐nAChR may be a potential target in NSCLC diagnosis and immunotherapy.     

Co‐expression of NF‐κB‐p65 and phosphorylated NF‐κB‐p105 is associated with poor prognosis in surgically resectable non‐small cell lung cancer

Nuclear factor‐kappa B (NF‐κB) as a prognostic marker remains unclear in non‐small cell lung cancer (NSCLC). Here, we studied NF‐κB‐p65 (p65) expression and phosphorylated NF‐κB‐p105 (p‐p105) expression in NSCLC and correlated the finding with overall survival (OS) and clinicopathological features. A total of 186 archival samples from patients with surgically resectable NSCLC were probed with p65 and p‐p105 (Ser 932). The p65‐positive expression and p‐p105‐positive expression were defined as distinct nuclear p65 and cytoplasmic p‐p105 labelling in at least 1% of tumour cells, respectively. The positive staining of p65 alone, p‐p105 alone and co‐expression of p65 and p‐p105 were observed in 61 (32.8%), 90 (48.4%) and 35 (18.8%) patients, respectively. Co‐expression of p65 and p‐p105 but not of either p65 or p‐p105 alone was associated with a poor prognosis. Patients with co‐expression of p65 and p‐p105 had a shorter OS than others, median OS 26.5 months versus 64.1 months, HR 1.85 (95% CI: 1.18–2.91), P = 0.007. There was no statistically significant association between clinicopathological characteristics and either p65 or p‐p105 alone or co‐expression of p65 and p‐p105. This indicates that co‐expression of p65 and p‐p105 was a poor prognostic factor, and pathologic studies of NF‐κB expression could include multiple pathway components in NSCLC.     

IL‐12 stimulates the osteoclast inhibitory peptide‐1 (OIP‐1/hSca) gene expression in CD4+ T cells

Immune cell products such as interferon (IFN)‐γ and interleukin (IL)‐12 are potent inhibitors of osteoclast formation. We previously characterized the human osteoclast inhibitory peptide‐1 (OIP‐1/hSca), a Ly‐6 gene family member and showed IFN‐γ modulation of OIP‐1 expression in bone marrow cells. Whether, IL‐12 regulates OIP‐1 expression in the bone microenvironment is unclear. Real‐time PCR analysis revealed that IL‐12 treatment significantly enhanced OIP‐1 mRNA expression in human bone marrow mononuclear cells. Because IL‐12 induces IFN‐γ production by T cells, we tested whether IFN‐γ participates in IL‐12 stimulation of OIP‐1 gene expression in these cells. IL‐12 treatment in the presence of IFN‐γ neutralizing antibody significantly increased OIP‐1 mRNA expression, suggesting that IL‐12 directly regulates OIP‐1 gene expression. Interestingly, real‐time PCR analysis demonstrated that IL‐12 induces OIP‐1 expression (3.2‐fold) in CD4+ T cells; however, there was no significant change in CD8+ T cells. Also, IL‐12 (10 ng/ml) treatment of Jurkat cells transfected with OIP‐1 gene (?1 to ?1,988 bp) promoter‐luciferase reporter plasmid demonstrated a 5‐fold and 2.7‐fold increase in OIP‐1 gene promoter activity in the presence and absence of antibody against IFN‐γ, respectively. We showed that STAT‐1,3 inhibitors treatment significantly decreased IL‐12 stimulated OIP‐1 promoter activity. Chromatin immunoprecipitation (ChIP) assay confirmed STAT‐3, but not STAT‐1 binding to the OIP‐1 gene promoter in response to IL‐12 stimulation. These results suggest that IL‐12 stimulates the OIP‐1 gene expression through STAT‐3 activation in CD4+ T cells. J. Cell. Biochem. 107: 104–111, 2009. © 2009 Wiley‐Liss, Inc.