Mi Jeong Heo scite author profile

Hepatocellular carcinoma (HCC) is classified as a poor prognostic tumor, and becomes frequently aggressive. MicroRNAs emerge as key contributors to tumor progression. This study investigated whether miR-148a dysregulation differentiates poor prognosis of HCC, exploring new targets of miR-148a. miR-148a dysregulation discriminated not only the overall survival and recurrence free survival rates of HCC, but the microvascular invasion. In the human HCC samples, ubiquitin specific protease 4 (USP4) and sphingosine 1-phosphate receptor 1 (S1P1) were up-regulated as the new targets of miR-148a. USP4 and S1P1 were up-regulated in mesenchymal-type liver-tumor cells with miR-148a dysregulation, facilitating migration and proliferation of tumor cells. The inverse relationship between miR-148a and the identified targets was verified in a tumor xenograft model. In the analysis of human samples, the expression of USP4, but not S1P1, correlated with the decrease of miR-148a. In a heterotropic patient-derived HCC xenograft model, USP4 was also overexpressed in G1 and G2 tumors when miR-148a was dysregulated, reflecting the closer link between miR-148a and USP4 for a shift in the expansion phase of tumorgraft. In conclusion, miR-148a dysregulation affects the poor prognosis of HCC. Of the identified targets of miR-148a, USP4 overexpression may contribute to HCC progression towards more aggressive feature.

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Overproduction of inter-α-trypsin inhibitor heavy chain 1 after loss of Gα ₁₃ in liver exacerbates systemic insulin resistance in mice

Kim

Koo

Heo

et al. 2019

Sci. Transl. Med.

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The impact of liver disease on whole-body glucose homeostasis is largely attributed to dysregulated release of secretory proteins in response to metabolic stress. The molecular cues linking liver to whole-body glucose metabolism remain elusive. We found that expression of G protein α-13 (Gα13) was decreased in the liver of mice and humans with diabetes. Liver-specific deletion of the Gna13 gene in mice resulted in systemic glucose intolerance. Comparative secretome analysis identified inter-α-trypsin inhibitor heavy chain 1 (ITIH1) as a protein secreted by liver that was responsible for systemic insulin resistance in Gna13-deficient mice. Liver expression of ITIH1 positively correlated with surrogate markers for diabetes in patients with impaired glucose tolerance or overt diabetes. Mechanistically, a decrease in hepatic Gα13 caused ITIH1 oversecretion by liver through induction of O-GlcNAc transferase expression, facilitating ITIH1 deposition on the hyaluronan surrounding mouse adipose tissue and skeletal muscle. Neutralization of secreted ITIH1 ameliorated glucose intolerance in obese mice. Our findings demonstrate systemic insulin resistance in mice resulting from liver-secreted ITIH1 downstream of Gα13 and its reversal by ITIH1 neutralization.

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Role of non-coding RNAs in liver disease progression to hepatocellular carcinoma

2019

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Methyl‐Sensing Nuclear Receptor Liver Receptor Homolog‐1 Regulates Mitochondrial Function in Mouse Hepatocytes

et al. 2019

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Background and Aims Liver receptor homolog‐1 (LRH‐1; NR5A2) is a nuclear receptor that regulates metabolic homeostasis in the liver. Previous studies identified phosphatidylcholines as potential endogenous agonist ligands for LRH‐1. In the liver, distinct subsets of phosphatidylcholine species are generated by two different pathways: choline addition to phosphatidic acid through the Kennedy pathway and trimethylation of phosphatidylethanolamine through phosphatidylethanolamine N‐methyl transferase (PEMT). Approach and Results Here, we report that a PEMT–LRH‐1 pathway specifically couples methyl metabolism and mitochondrial activities in hepatocytes. We show that the loss of Lrh‐1 reduces mitochondrial number, basal respiration, beta‐oxidation, and adenosine triphosphate production in hepatocytes and decreases expression of mitochondrial biogenesis and beta‐oxidation genes. In contrast, activation of LRH‐1 by its phosphatidylcholine agonists exerts opposite effects. While disruption of the Kennedy pathway does not affect the LRH‐1‐mediated regulation of mitochondrial activities, genetic or pharmaceutical inhibition of the PEMT pathway recapitulates the effects of Lrh‐1 knockdown on mitochondria. Furthermore, we show that S‐adenosyl methionine, a cofactor required for PEMT, is sufficient to induce Lrh‐1 transactivation and consequently mitochondrial biogenesis. Conclusions A PEMT–LRH‐1 axis regulates mitochondrial biogenesis and beta‐oxidation in hepatocytes.

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Mi Jeong Heo

Alcohol dysregulates miR-148a in hepatocytes through FoxO1, facilitating pyroptosis via TXNIP overexpression

microRNA-148a dysregulation discriminates poor prognosis of hepatocellular carcinoma in association with USP4 overexpression

Overproduction of inter-α-trypsin inhibitor heavy chain 1 after loss of Gα ₁₃ in liver exacerbates systemic insulin resistance in mice

Role of non-coding RNAs in liver disease progression to hepatocellular carcinoma

Methyl‐Sensing Nuclear Receptor Liver Receptor Homolog‐1 Regulates Mitochondrial Function in Mouse Hepatocytes

Contact Info

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About

Mi Jeong Heo

Alcohol dysregulates miR-148a in hepatocytes through FoxO1, facilitating pyroptosis via TXNIP overexpression

microRNA-148a dysregulation discriminates poor prognosis of hepatocellular carcinoma in association with USP4 overexpression

Overproduction of inter-α-trypsin inhibitor heavy chain 1 after loss of Gα 13 in liver exacerbates systemic insulin resistance in mice

Role of non-coding RNAs in liver disease progression to hepatocellular carcinoma

Methyl‐Sensing Nuclear Receptor Liver Receptor Homolog‐1 Regulates Mitochondrial Function in Mouse Hepatocytes

Contact Info

Product

Resources

About

Overproduction of inter-α-trypsin inhibitor heavy chain 1 after loss of Gα ₁₃ in liver exacerbates systemic insulin resistance in mice