Chia Jung Liao

Thyroid hormone regulation of mir-21 enhances migration and invasion of hepatoma

Thyroid hormone (T(3)) signaling through the thyroid hormone receptor (TRα1) regulates hepatoma cell growth and pathophysiology, but the underlying mechanisms are unclear at present. Here, we have shown that the oncomir microRNA-21 (miR-21) is activated by T(3) through a native T(3) response element in the primary miR-21 promoter. Overexpression of miR-21 promoted hepatoma cell migration and invasion, similar to that observed with T(3) stimulation in hepatoma cells. In addition, anti-miR-21-induced suppression of cell migration was rescued by T(3). The Rac-controlled regulator of invasion and metastasis, T-cell lymphoma invasion and metastasis 1 (TIAM1), was identified as a miR-21 target additionally downregulated by T(3). Attenuation and overexpression of miR-21 induced upregulation and downregulation of TIAM1, respectively. TIAM1 attenuation, in turn, enhanced migration and invasion via the upregulation of β-catenin, vimentin, and matrix metalloproteinase-2 in hepatoma cells. Notably, correlations between TRα1, miR-21, and TIAM1 expression patterns in animal models paralleled those observed in vitro. In the clinic, we observed a positive correlation (P = 0.005) between the tumor/nontumor ratios of TRα1 and miR-21 expression, whereas a negative correlation (P = 0.019) was seen between miR-21 and TIAM1 expression in patients with hepatoma. Our findings collectively indicate that miR-21 stimulation by T(3) and subsequent TIAM1 suppression promotes hepatoma cell migration and invasion.

Overexpression of gelsolin in human cervical carcinoma and its clinicopathological significance

OBJECTIVES Cervical carcinoma is the second most common cause of death from gynecological cancers worldwide. Knowledge of the molecular mechanisms underlying the tumorigenesis of cervical cancer cell, except human papilloma virus infection, is limited. METHODS A microarray was used to study the differential expression of genes in cancerous tissues to identify new molecular markers for diagnosis and prognosis. Their differential expression was confirmed with Western blotting and immunohistochemical analyses. The clinical correlations and prognostic significance of the aberrantly expressed proteins were evaluated to identify novel biomarkers of cervical cancer. RESULTS The expression of gelsolin was significantly upregulated in 78% of patients with cervical cancer, and gelsolin was selected for further study. Gelsolin expression was stronger in cervical tumor tissues than in the surrounding noncancerous tissues (P<0.001). Gelsolin expression in the plasma of cervical cancer patients was increased 2.2-fold compared with that of healthy control subjects (P<0.001). The levels of plasma gelsolin in the early and late stages were significantly different (P=0.006). According to immunohistochemical analysis, increased gelsolin expression was associated with histological type and FIGO stage II. The 5-year overall survival and recurrence-free survival rates for the low-expression group (cut-off=115) were significantly higher than those of the high-expression group. Cancer cells with reduced gelsolin expression exhibited reduced migration and proliferation. CONCLUSIONS These results provide strong evidence that gelsolin plays an important role in cellular proliferation and migration in cervical cancer and suggest that gelsolin is a promising marker for cervical cancer screening and prognosis.

Chromosome 19 open reading frame 80 is upregulated by thyroid hormone and modulates autophagy and lipid metabolism

The thyroid hormone, T3, regulates cell growth, differentiation and development through binding to the nuclear thyroid hormone receptor (THR), a member of the steroid/TR superfamily of ligand-dependent transcriptional factors. T3 modulates lipid metabolism in liver, although the detailed molecular mechanisms are unclear at present. Here, by a microarray analysis, we identified a novel chromosome 19 open reading frame 80 (C19orf80) which was activated by T3. T3 stimulation led to upregulation of both mRNA and protein levels of C19orf80. Immunofluorescence analysis revealed a vesicle-like pattern of C19orf80 around lipid droplets or within the lysosome-associated compartment in cells. Furthermore, T3 treatment as well as C19orf80 overexpression specifically activated the autophagic response and lipid metabolism, as observed from lipidated LC3 (LC3-II) and levels of oxygen consumption rate, respectively. Reciprocally, knockdown of C19orf80 obstructed T3-activated autophagy and lipolysis. Moreover, treatment with autolysosome maturation inhibitors, ammonium chloride and chloroquine, not only suppressed the T3-activated autophagic process but also lipid metabolism. Our results collectively suggested that T3 regulates lipid metabolism through a C19orf80-activated autophagic process.

Glucose-regulated protein 58 modulates cell invasiveness and serves as a prognostic marker for cervical cancer

Human papilloma virus infection is critical but not sufficient to cause cervical cancer. Molecular markers of cervical carcinogenesis are essential. The aim of this study was to identify aberrantly expressed proteins in cervical cancer and determine their clinical significance. A two‐dimensional polyacrylamide gel electrophoresis (2‐DE) proteomic strategy was used for screening candidate proteins. Immunoblotting and immunohistochemical (IHC) analyses were performed to confirm the results of 2‐DE, and the clinical significance was estimated. Glucose‐regulated protein 58 (Grp58) was overexpressed in 73% of cancers. The IHC staining showed that the Grp58 histoscore was significantly higher in patients with adenocarcinoma (AD) compared with squamous cell carcinoma (P < 0.05). Grp58 staining was intense in AD with a penetration depth greater than half of the cervical stroma (P = 0.033). High Grp58 expression was associated with low overall survival and recurrence‐free survival (RFS) rates (P = 0.007 and P = 0.013, respectively). In multivariate analysis, high Grp58 expression (P = 0.042) and lymph node metastasis (P = 0.026) were determined as independent prognostic factors for RFS. Patients exhibiting both high Grp58 expression and lymph node metastasis displayed poorer outcomes than the other patient groups. In functional studies, knockdown of Grp58 in HeLa cells led to decreased cell invasiveness and inhibition of lung metastasis in a xenograft mouse model. In conclusion, Grp58 serves as a potent prognostic factor of cervical AD. Estimation of the Grp58 index in conjunction with the lymph node metastasis status might aid in predicting the prognosis of cervical AD. (Cancer Sci 2011; 102: 2255–2263)

Thyroid hormone receptor represses miR-17 expression to enhance tumor metastasis in human hepatoma cells

MicroRNAs (miRNAs) are thought to control tumor metastasis through direct interactions with target genes. Thyroid hormone (T3) and its receptor (TR) are involved in cell growth and cancer progression. However, the issue of whether miRNAs participate in T3/TR-mediated tumor migration is yet to be established. In the current study, we demonstrated that T3/TR negatively regulates mature miR-17 transcript expression, both in vitro and in vivo. Luciferase reporter and chromatin immunoprecipitation (ChIP) assays localized the regions responding to TR-mediated repression to positions −2234/−2000 of the miR-17 promoter sequence. Overexpression of miR-17 markedly inhibited cell migration and invasion in vitro and in vivo, mediated via suppression of matrix metalloproteinases (MMP)-3. Moreover, p-AKT expression was increased in miR-17-knockdown cells that led to enhanced cell invasion, which was blocked by LY294002. Notably, low miR-17 expression was evident in highly metastatic cells. The cell migration ability was increased by T3, but partially reduced upon miR-17 overexpression. Notably, TRα1 was frequently upregulated in hepatocellular carcinoma (HCC) samples and associated with low overall survival (P=0.023). miR-17 expression was significantly negatively associated with TRα1 (P=0.033) and MMP3 (P=0.043) in HCC specimens. Data from our study suggest that T3/TR, miR-17, p-AKT and MMP3 activities are interlinked in the regulation of cancer cell metastasis.

Thyroid hormone receptors promote metastasis of human hepatoma cells via regulation of TRAIL

Although accumulating evidence has confirmed the important roles of thyroid hormone (T3) and its receptors (TRs) in tumor progression, the specific functions of TRs in carcinogenesis remain unclear. In the present study, tumor necrosis factor (TNF)-related apoptosis-inducing ligand (TRAIL) was directly upregulated by T3 in TR-overexpressing hepatoma cell lines. TRAIL is an apoptotic inducer, but it can nonetheless trigger non-apoptotic signals favoring tumorigenesis in apoptosis-resistant cancer cells. We found that TR-overexpressing hepatoma cells treated with T3 were apoptosis resistant, even when TRAIL was upregulated. This apoptotic resistance may be attributable to simultaneous upregulation of Bcl-xL by T3, because (1) knockdown of T3-induced Bcl-xL expression suppressed T3-mediated protection against apoptosis, and (2) overexpression of Bcl-xL further protected hepatoma cells from TRAIL-induced apoptotic death, consequently leading to TRAIL-promoted metastasis of hepatoma cells. Moreover, T3-enhanced metastasis in vivo was repressed by the treatment of TRAIL-blocking antibody. Notably, TRAIL was highly expressed in a subset of hepatocellular carcinoma (HCC) patients, and this high-level expression was significantly correlated with that of TRs in these HCC tissues. Together, our findings provide evidence for the existence of a novel mechanistic link between increased TR and TRAIL levels in HCC. Thus, TRs induce TRAIL expression, and TRAIL thus synthesized acts in concert with simultaneously synthesized Bcl-xL to promote metastasis, but not apoptosis.

Thyroid hormone suppresses cell proliferation through endoglin-mediated promotion of p21 stability

Hypothyroidism has been associated with significantly elevated risk for hepatocellular carcinoma (HCC), although the precise underlying mechanisms remain unknown at present. Thyroid hormone (T3) and its receptor (TR) are involved in metabolism and growth. Endoglin is a T3/TR candidate target gene identified from our previous studies. Here, we demonstrated that T3 positively regulates endoglin mRNA and protein levels, both in vitro and in vivo. The thyroid hormone response elements of endoglin were identified at positions −2114/−2004 and −2032/−1973 of the promoter region using the electrophoretic mobility shift assay and chromatin immunoprecipitation assay. Endoglin was downregulated in the subgroups of HCC patients and significantly associated with histology grade (negative association, P=0.001), and this expression level was significantly associated with TRα1 in these HCC patients. Our results clearly indicate that p21 is involved in T3-mediated suppression of cell proliferation. Knock down of endoglin expression in HCC cells facilitated p21 polyubiquitination and promoted cell proliferation in the presence of T3. The data collectively suggest that T3/TR signaling suppresses cell proliferation by upregulating endoglin, in turn, affecting p21 stability. The results indicate that endoglin has a suppressor role to inhibit cell proliferation in HCC cell lines.

Negative modulation of the epigenetic regulator, UHRF1, by thyroid hormone receptors suppresses liver cancer cell growth.

The thyroid hormone, 3,3′,5‐triiodo‐l‐thyronine (T3), mediates several physiological processes, including embryonic development, cellular differentiation, metabolism and regulation of cell proliferation. Thyroid hormone (T3) and its receptor (TR) are involved in metabolism and growth. In addition to their developmental and metabolic functions, TRs play a tumor suppressor role, and therefore, their aberrant expression can lead to tumor transformation. Aberrant epigenetic silencing of tumor suppressor genes promotes cancer progression. The epigenetic regulator, Ubiquitin‐like with PHD and ring finger domains 1 (UHRF1), is overexpressed in various cancers. In our study, we demonstrated that T3 negatively regulates UHRF1 expression, both in vitro and in vivo. Our results further indicate that UHRF1 regulation by T3 is indirect and mediated by Sp1. Sp1‐binding elements of UHRF1 were identified at positions −664/−505 of the promoter region using the luciferase and chromatin immunoprecipitation assays. Notably, UHRF1 and Sp1 levels were elevated in subgroups of hepatocellular carcinoma patients and inversely correlated with TRα1 expression. Knockdown of UHRF1 expression should therefore provide a means to inhibit hepatoma cell proliferation. Expression of UHRF1 was downregulated by TRs, in turn, relieving silencing of the UHRF1 target gene, p21. Based on the collective findings, we propose that T3/TR signaling induces hepatoma cell growth inhibition via UHRF1 repression.

Hepatoma cell functions modulated by NEK2 are associated with liver cancer progression

NEK2 (NIMA‐related expressed kinase 2) is a serine/threonine centrosomal kinase that acts as a critical regulator of centrosome structure and function. Aberrant NEK2 activities lead to failure in regulating centrosome duplication. NEK2 overexpression promotes tumorigenesis and is associated with poor prognosis in several cancers. Increased NEK2 expression during the late pathological stage has been detected in the Oncomine liver dataset and hepatocellular carcinoma (HCC) specimens. Elevated NEK2 protein is associated with poor overall survival in patients with HCC. However, the precise roles and mechanisms of NEK2 in liver cancer progression remain largely unknown. An earlier functional study revealed that NEK2 mediates drug resistance (cisplatin or lipo‐doxorubicin) via expression of an ABCC10 transporter. Active angiogenesis and metastasis underlie the rapid recurrence and poor survival of HCC. Results from the current study showed that NEK2 mediates tumor growth, metastasis and angiogenesis in vivo. NEK2‐mediated drug resistance was blocked by a specific PI3K or AKT inhibitor. Moreover, NEK2 mediated liver cancer cell migration via pAKT/NF‐κB signaling and matrix metalloproteinase (MMP) activation. Angiogenesis was induced via the same signaling pathway and IL‐8 stimulation. Our findings collectively indicate that NEK2 modulates hepatoma cell functions, including growth, drug resistance, metastasis and angiogenesis via downstream genes activation.

Glucose-regulated protein 58 modulates β-catenin protein stability in a cervical adenocarcinoma cell line.

BackgroundCervical cancer continues to threaten women’s health worldwide, and the incidence of cervical adenocarcinoma (AD) is rising in the developed countries. Previously, we showed that glucose-regulated protein 58 (Grp58) served as an independent factor predictive of poor prognosis of patients with cervical AD. However, the molecular mechanism underlying the involvement of Grp58 in cervical carcinogenesis is currently unknown.MethodsDNA microarray and enrichment analysis were used to identify the pathways disrupted by knockdown of Grp58 expression.ResultsAmong the pathway identified, the WNT signaling pathway was one of those that were significantly associated with knockdown of Grp58 expression in HeLa cells. Our experiments showed that β-catenin, a critical effector of WNT signaling, was stabilized thereby accumulated in stable Grp58 knockdown cells. Membrane localization of β-catenin was observed in Grp58 knockdown, but not control cells. Using a transwell assay, we found that accumulated β-catenin induced by Grp58 knockdown or lithium chloride treatment inhibited the migration ability of HeLa cells. Furthermore, an inverse expression pattern of Grp58 and β-catenin was observed in cervical tissues.ConclusionsOur results demonstrate that β-catenin stability is negatively regulated by Grp58 in HeLa cells. Overexpression of Grp58 may be responsible for the loss of or decrease in membranous β-catenin expression in cervical AD.