Satoshi Miuma

Initiation of Genome Instability and Preneoplastic Processes through Loss of Fhit Expression

Genomic instability drives tumorigenesis, but how it is initiated in sporadic neoplasias is unknown. In early preneoplasias, alterations at chromosome fragile sites arise due to DNA replication stress. A frequent, perhaps earliest, genetic alteration in preneoplasias is deletion within the fragile FRA3B/FHIT locus, leading to loss of Fhit protein expression. Because common chromosome fragile sites are exquisitely sensitive to replication stress, it has been proposed that their clonal alterations in cancer cells are due to stress sensitivity rather than to a selective advantage imparted by loss of expression of fragile gene products. Here, we show in normal, transformed, and cancer-derived cell lines that Fhit-depletion causes replication stress-induced DNA double-strand breaks. Using DNA combing, we observed a defect in replication fork progression in Fhit-deficient cells that stemmed primarily from fork stalling and collapse. The likely mechanism for the role of Fhit in replication fork progression is through regulation of Thymidine kinase 1 expression and thymidine triphosphate pool levels; notably, restoration of nucleotide balance rescued DNA replication defects and suppressed DNA breakage in Fhit-deficient cells. Depletion of Fhit did not activate the DNA damage response nor cause cell cycle arrest, allowing continued cell proliferation and ongoing chromosomal instability. This finding was in accord with in vivo studies, as Fhit knockout mouse tissue showed no evidence of cell cycle arrest or senescence yet exhibited numerous somatic DNA copy number aberrations at replication stress-sensitive loci. Furthermore, cells established from Fhit knockout tissue showed rapid immortalization and selection of DNA deletions and amplifications, including amplification of the Mdm2 gene, suggesting that Fhit loss-induced genome instability facilitates transformation. We propose that loss of Fhit expression in precancerous lesions is the first step in the initiation of genomic instability, linking alterations at common fragile sites to the origin of genome instability.

A snack enriched with oral branched-chain amino acids prevents a fall in albumin in patients with liver cirrhosis undergoing chemoembolization for hepatocellular carcinoma

Nutritional support may play an important role in management of liver cirrhosis (LC) associated with unresectable hepatocellular carcinoma (HCC). Total protein and albumin deteriorate in patients with LC undergoing trans-arterial chemoembolization (TACE). Therefore, in this study, we examined the hypothesis that short-term administration of branched-chain amino acids (BCAA) will prevent a fall in total protein and albumin in the perioperative period. The subjects were 56 patients who underwent TACE for HCC between 2004 and 2005 at Nagasaki University Hospital. The patients were randomly placed in the BCAA group (n = 28) or a control group (n = 28). The patients in the BCAA group consumed a snack containing 50 g of BCAA once a day at 10:00 pm starting 1 day before TACE and continuing until 2 weeks after TACE. A comparison of baseline and end point data showed greater decreases in the concentrations of total protein, albumin, cholinesterase, and total cholesterol and in the red blood cell count in the control group compared to the BCAA group. Ammonia levels decreased in the BCAA group and increased in the control group. Our findings indicate that a BCAA supplement taken orally as a late evening snack prevents suppression of liver function by TACE in patients with LC complicated with HCC during the 2-week period after TACE.

Common Chromosome Fragile Sites in Human and Murine Epithelial Cells and FHIT/FRA3B Loss-Induced Global Genome Instability

Chromosomal positions of common fragile sites differ in lymphoblasts and fibroblasts, with positions dependent on the epigenetically determined density of replication origins at these loci. Because rearrangement of fragile loci and associated loss of fragile gene products are hallmarks of cancers, we aimed to map common fragile sites in epithelial cells, from which most cancers derive. Among the five most frequently activated sites in human epithelial cells were chromosome bands 2q33 and Xq22.1, which are not among top fragile sites identified in lymphoblasts or fibroblasts. FRA16D at 16q23 was among the top three fragile sites in the human epithelial cells examined, as it is in lymphoblasts and fibroblasts, while FRA3B at 3p14.2, the top fragile locus in lymphoblasts, was not fragile in most epithelial cell lines tested. Epithelial cells exhibited varying hierarchies of fragile sites; some frequent epithelial cell fragile sites are apparently not frequently altered in epithelial cancers and sites that are frequently deleted in epithelial cancers are not necessarily among the most fragile. Since we have reported that loss of expression of the FRA3B‐encoded FHIT protein causes increased replication stress‐induced DNA damage, we also examined the effect of FHIT‐deficiency on markers of genome instability in epithelial cells. FHIT‐deficient cells exhibited increases in fragile breaks and in γH2AX and 53BP1 foci in G1 phase cells, confirming in epithelial cells that the FHIT gene and encompassing FRA3B, is a “caretaker gene” necessary for maintenance of genome stability.

Predictive value of suppressor of cytokine signal 3 (SOCS3) in the outcome of interferon therapy in chronic hepatitis C

Aims:  Suppressor of cytokine signaling 3 (SOCS3) can suppress Janus kinase (JAK)‐signal transducers and activators of transcription (STAT) signaling by blocking an IFN‐induced protein. In this study, the relationship between SOCS3 and phosphorylation of STAT1 in the liver and outcome of interferon therapy were examined.

Significance of hepatitis B virus core‐related antigen and covalently closed circular DNA levels as markers of hepatitis B virus re‐infection after liver transplantation

Currently, hepatitis B virus (HBV) re‐infection after liver transplantation (LT) can be almost completely suppressed by the administration of HBV reverse transcriptase inhibitors and hepatitis B immunoglobulins. However, after transplantation, there is no indicator of HBV replication because tests for the serum hepatitis B surface antigen and HBV‐DNA are both negative. Therefore, the criteria for reducing and discontinuing these precautions are unclear. In this study, we examined the serum HBV core‐related antigen (HBcrAg) and intrahepatic covalently closed circular DNA (cccDNA) in order to determine if these could be useful markers for HBV re‐infection.

Interferon-α-induced mTOR activation is an anti-hepatitis C virus signal via the phosphatidylinositol 3-kinase-Akt-independent pathway

ObjectThe interferon-induced Jak-STAT signal alone is not sufficient to explain all the biological effects of IFN. The PI3-K pathways have emerged as a critical additional component of IFN-induced signaling. This study attempted to clarify that relationship between IFN-induced PI3-K-Akt-mTOR activity and anti-viral action.ResultWhen the human normal hepatocyte derived cell line was treated with rapamycin (rapa) before accretion of IFN-α, tyrosine phosphorylation of STAT-1 was diminished. Pretreatment of rapa had an inhibitory effect on the IFN-α-induced expression of PKR and p48 in a dose dependent manner. Rapa inhibited the IFN-α inducible IFN-stimulated regulatory element luciferase activity in a dose-dependent manner. However, wortmannin, LY294002 and Akt inhibitor did not influence IFN-α inducible luciferase activity. To examine the effect of PI3-K-Akt-mTOR on the anti-HCV action of IFN-α, the full-length HCV replication system, OR6 cells were used. The pretreatment of rapa attenuated its anti-HCV replication effect in comparison to IFN-α alone, whereas the pretreatment with PI3-K inhibitors, wortmannin and LY294002 and Akt inhibitor did not influence IFN-induced anti-HCV replication.ConclusionIFN-induced mTOR activity, independent of PI3K and Akt, is the critical factor for its anti-HCV activity. Jak independent mTOR activity involved STAT-1 phosphorylation and nuclear location, and then PKR is expressed in hepatocytes.

Study of liver-targeted regulatory T cells in hepatitis B and C virus in chronically infected patients.

Introduction: Regulatory T cells (Tregs) play a critical role in chronic viral infections. The role of Tregs in chronic hepatitis B (CHB) and chronic hepatitis C (CHC) is unknown. This study examined the distribution and frequency of forkhead box p3+ (Foxp3+) Tregs in the liver tissue and compared the clinicopathological characteristics of CHB and CHC patients.

Fhit Deficiency-Induced Global Genome Instability Promotes Mutation and Clonal Expansion

Loss of Fhit expression, encoded at chromosome fragile site FRA3B, leads to increased replication stress, genome instability and accumulation of genetic alterations. We have proposed that Fhit is a genome ‘caretaker’ whose loss initiates genome instability in preneoplastic lesions. We have characterized allele copy number alterations and expression changes observed in Fhit-deficient cells in conjunction with alterations in cellular proliferation and exome mutations, using cells from mouse embryo fibroblasts (MEFs), mouse kidney, early and late after establishment in culture, and in response to carcinogen treatment. Fhit -/- MEFs escape senescence to become immortal more rapidly than Fhit +/+ MEFs; -/- MEFs and kidney cultures show allele losses and gains, while +/+ derived cells show few genomic alterations. Striking alterations in expression of p53, p21, Mcl1 and active caspase 3 occurred in mouse kidney -/- cells during progressive tissue culture passage. To define genomic changes associated with preneoplastic changes in vivo, exome DNAs were sequenced for +/+ and -/- liver tissue after treatment of mice with the carcinogen, 7,12-dimethylbenz[a]anthracene, and for +/+ and -/- kidney cells treated in vitro with this carcinogen. The -/- exome DNAs, in comparison with +/+ DNA, showed small insertions, deletions and point mutations in more genes, some likely related to preneoplastic changes. Thus, Fhit loss provides a ‘mutator’ phenotype, a cellular environment in which mild genome instability permits clonal expansion, through proliferative advantage and escape from apoptosis, in response to pressures to survive.

Characterization of the role of Fhit in suppression of DNA damage

The fragile histidine triad protein, Fhit, has a number of reported tumor suppressive functions which include signaling of apoptosis in cancer cells in vitro and in vivo, modulation of the DNA damage response, down-regulation of target oncogene expression, suppression of tumor growth in vivo, and suppression of cancer cell invasion and metastasis. Most of these functions of Fhit have been observed on exogenous re-expression of Fhit in Fhit-negative cancer cells. However, little is known about the tumorigenic changes that occur in normal or precancerous cells following loss of Fhit expression. Recently, we have shown that shortly after loss of Fhit expression, cells exhibit signs of DNA replication stress-induced DNA damage and develop genomic instability. Here, we extend these findings through investigation of different factors that affect Fhit function to prevent DNA damage. We found that Fhit activity is dependent upon a functional HIT domain and the tyrosine-114 residue, previously shown to be required for tumor suppression by Fhit. Furthermore, Fhit function was shown to be independent of exogenous and endogenous sources of oxidative stress. Finally, Fhit function was shown to be dependent upon Chk1 kinase activity, but independent of Atr or Atm kinases. Evidence suggests that Fhit and Chk1 kinase cooperate to prevent replication stress-induced DNA damage. These findings provide important and unexpected insights into the mechanism whereby loss of Fhit expression contributes to cell transformation.

Effect of an oral branched chain amino acid-enriched snack in cirrhotic patients with sleep disturbance

Aim:  Sleep is closely related to physical and mental health. Sleep disturbance is reported in patients without encephalopathy. We examined the relationship among cirrhotic symptoms, laboratory data and sleep disturbances. Next, we examined the influence of a branched chain amino acid (BCAA) supplement on sleep disturbance in cirrhotic patients.