Inhibitory effect of tannin on poly(ADP-ribose) glycohydrolase from human placenta

Tannin, a naturally occurring polyphenolic compound, was found to inhibit the activity of purified poly(ADP-ribose) glycohydrolase from human placenta. The inhibition was dose-dependent and half maximal with 2.8 micrograms/ml of tannin. The inhibitory effect of tannin was two and three orders of magnitude more than those of ADP-ribose and cAMP, respectively. Kinetic analysis revealed that the inhibition by tannin was competitive with respect to the substrate poly(ADP-ribose).     

Affinity of chromatin constituents for isopeptidase

Isopeptidase is a novel eukaryotic enzyme that cleaves a structural chromatin protein, A24, stoichiometrically into H2A and ubiquitin. To understand the rapid turnover of ubiquitin in mitosis as wells as the high specific activity of the enzyme associated with metaphase chromosomes, attempts were made to determine chromatin constituents that show high affinity for this enzyme. Endogenous protease-free isopeptidase was prepared from calf thymus and applied to a Sepharose 4B affinity column on which histones, DNA, NHCP and ubiquitin were respectively immobilized. The enzyme proved to bind only histones. To further determine which of the histone fractions is involved, affinity columns with each histone fraction were also used. The enzyme showed affinity for all histone fractions. However, the strength of affinity varied in the order H2A>H³ H2B≥H4?H1, being inversely correlated with the ratio of basic/acidic amino acids in these molecules. These results suggest that the turnover of A24 in mitosis is controlled, at least in part, by the affinity of enzyme for histones, and also that such affinity is caused by a mechanism which cannot be explained simply by the electrostatic interaction between negatively charged enzyme molecules and positively charged histones.     

Effect of thymidine on poly(ADP-ribosyl)ation in vivo.

The addition of thymidine as well as nicotinamide to isolated nuclei resulted in a strong inhibition of poly(ADP-ribosyl)ation, whereas that of hydroxyurea and amethopterin has essentially no effect. The nuclei isolated from the cells immediately after release from thymidine synchronization exhibited a significantly increased activity of poly(ADP-ribosyl)ation. Thereafter, the fluctuation pattern of the activity of poly(ADP-ribosyl)ation in isolated nuclei during the cell cycle was essentially the same as in the case of hydroxyurea synchronization. The activity of poly(ADP-ribosyl)ation in isolated nuclei after treatment with thymidine in vivo increased with the treatment time. The time-dependent increase was also evident in the case of nicotinamide treatment. Little increase in the activity was observed in hydroxyurea and amethopterin treatment. When poly(ADP-ribose) polymerase was extracted from the nuclei isolated from the cells which were pretreated with each of the four compounds, there was no significant difference in the amount among these compounds. The reason for the increase in the poly(ADP-ribosyl)ation in vitro by the in vivo treatment with thymidine is discussed.     

Changes in the level of poly ADP-ribosylation during a cell cycle

In order to analyze the fluctuation of the poly ADP-ribosylation level during the cell cycle of synchronously growing He La S3 cells, we have developed three different assay systems; intact and disrupted nuclear systems, and poly(ADP-ribose) polymerase in vitro system. The optimum conditions for poly ADP-ribosylation in each assay system were similar except the pH optimum. Under the conditions favoring poly ADP-ribosylation, little radioactivity incorporated into poly(ADP-ribose) was lost after termination of the poly ADP-ribosylation by addition of nicotinamide which inhibits the reactions by more than 90% in any system. In the intact nuclear system, the level of poly ADP-ribosylation increased slightly subsequent to late G2 phase with a peak at M phase. The high level of poly ADP-ribosylation in M phase was also confirmed by using selectively collected mitotic cells which were arrested in M phase by Colcemid. The level in mitotic chromosomes was 5.1-fold higher than that in the nuclei from logarithmically growing cells. Colcemid has no effect on the poly ADP-ribosylation. In the disrupted nuclear system, a relatively high level of poly ADP-ribosylation was observed during mid S-G2 phase. When poly(ADP-ribose) polymerase was extracted from the nuclei with a buffer solution containing 0.3 M KCl, more than 90% of the enzyme activity was recovered. The poly(ADP-ribose) polymerase in vitro system was dependent on both DNA and histone—10 μg each. In the enzyme system, enzyme activity was detected throughout the cell cycle and was observed to be highest in G2 phase. The high level at M phase observed in the intact nuclear system was not seen in the other two systems. Under the assay conditions, little influence of poly(ADP-ribose) degrading enzymes was noted on the level of poly ADP-ribosylation in any of the three systems. This was confirmed at various stages during the cell cycle through pulse-labeling and “chasing” by adding nicotinamide.     

The enterotoxin gene (cpe) of Clostridium perfringens can be chromosomal or plasmid-borne

The location of the cpe gene, encoding the enterotoxin responsible for food poisoning in humans, has been studied in a series of enterotoxigenic Ciostridium perfringens strains by means of pulsed field gel electrophoresis of genomic DNA. The cpe gene was found at the same chromosomal locus in strains associated with food poisoning in humans and was shown to be linked to a repetitive sequence, the Hin dlll repeat, and an open reading frame, ORF3, that may be part of an insertion sequence. In contrast, when the strains originated from domesticated livestock cpe was located on a large episome where it was often close to a copy of the transposable element IS 1151. In these cases, the Hin dlll repeat was not linked to the cpe gene although this was generally preceded by ORF3.     

Effects of chemically defined tannins on poly (ADP-ribose) glycohydrolase activity.

Three classes of chemically defined tannins, gallotannins, ellagitannins and condensed tannins were examined for their inhibitory activities against purified poly (ADP-ribose) glycohydrolase. Ellagitannins showed higher inhibitory activities than gallotannins. In contrast, condensed tannins, which consist of an epicathechin gallate (ECG) oligomer without a glucose core were not appreciably inhibitory. Kinetic analysis revealed that the inhibition of ellagitannins was competitive with respect to the substrate poly(ADP-ribose), whereas gallotannins exhibited mixed-type inhibition. These results suggest that conjugation with glucose of hexahydroxy-diphenoyl (HHDP) group, which is a unique component of ellagitannins, potentiated the inhibitory activity, and that the structure of ellagitannins may have a functional domain which competes with poly(ADP-ribose) on the poly(ADP-ribose) glycohydrolase molecule.     

MicroRNA-351 Regulates Two-Types of Cell Death,Necrosis and Apoptosis,Induced by 5-fluoro-2'-deoxyuridine

Cell-death can be necrosis and apoptosis. We are investigating the mechanisms regulating the cell death that occurs on treatment of mouse cancer cell-line FM3A with antitumor 5-fluoro-2''-deoxyuridine (FUdR): necrosis occurs for the original clone F28-7, and apoptosis for its variant F28-7-A. Here we report that a microRNA (miR-351) regulates the cell death pattern. The miR-351 is expressed strongly in F28-7-A but only weakly in F28-7. Induction of a higher expression of miR-351 in F28-7 by transfecting an miRNA mimic into F28-7 resulted in a change of the death mode; necrosis to apoptosis. Furthermore, transfection of an miR-351 inhibitor into F28-7-A resulted in the morphology change, apoptosis to necrosis, in this death-by-FUdR. Possible mechanism involving lamin B1 in this miR-351’s regulatory action is discussed.     

CHK1 cleavage in programmed cell death is intricately regulated by both caspase and non-caspase family proteases

Background

CHK1 is an important effector kinase that regulates the cell cycle checkpoint. Previously, we showed that CHK1 is cleaved in a caspase (CASP)-dependent manner during DNA damage-induced programmed cell death (PCD) and have examined its physiological roles.

Methods and results

In this study, we investigated the behavior of CHK1 in PCD. Firstly, we found that CHK1 is cleaved at three sites in PCD, and all cleavages were inhibited by the co-treatment of a pan-CASP inhibitor or serine protease inhibitors. We also showed that CHK1 is cleaved by CASP3 and/or CASP7 recognizing at ²⁹⁶SNLD²⁹⁹ and ³⁴⁸TCPD³⁵¹, and that the cleavage results in the enhancement of CHK1 kinase activity. Furthermore, as a result of the characterization of cleavage sites by site-directed mutagenesis and an analysis performed using deletion mutants, we identified ³²⁰EPRT³²³ as an additional cleavage recognition sequence. Considering the consensus sequence cleaved by CASP, it is likely that CHK1 is cleaved by non-CASP family protease(s) recognizing at ³²⁰EPRT³²³. Additionally, the cleavage catalyzed by the ³²⁰EPRT³²³ protease(s) markedly and specifically increased when U2OS cells synchronized into G1 phase were induced to PCD by cisplatin treatment.

Conclusion

CHK1 cleavage is directly and indirectly regulated by CASP and non-CASP family proteases including serine protease(s) and the “³²⁰EPRT³²³ protease(s).” Furthermore, ³²⁰EPRT³²³ cleavage of CHK1 occurs efficiently in PCD which is induced at the G1 phase by DNA damage.

General significance

CASP and non-CASP family proteases intricately regulate cleavage for up-regulation of CHK1 kinase activity during PCD.     

Incidence of AIDS-Defining Opportunistic Infections and Mortality during Antiretroviral Therapy in a Cohort of Adult HIV-Infected Individuals in Hanoi, 2007-2014

Background

Although the prognosis for HIV-infected individuals has improved after antiretroviral therapy (ART) scale-up, limited data exist on the incidence of AIDS-defining opportunistic infections (ADIs) and mortality during ART in resource-limited settings.

Methods

HIV-infected adults in two large hospitals in urban Hanoi were enrolled to the prospective cohort, from October 2007 through December 2013. Those who started ART less than one year before enrollment were assigned to the survival analysis. Data on ART history and ADIs were collected retrospectively at enrollment and followed-up prospectively until April 2014.

Results

Of 2,070 cohort participants, 1,197 were eligible for analysis and provided 3,446 person-years (PYs) of being on ART. Overall, 161 ADIs episodes were noted at a median of 3.20 months after ART initiation (range 0.03–75.8) with an incidence 46.7/1,000 PYs (95% confidence interval [CI] 39.8–54.5). The most common ADI was tuberculosis with an incidence of 29.9/1,000 PYs. Mortality after ART initiation was 8.68/1,000 PYs and 45% (19/45) died of AIDS-related illnesses. Age over 50 years at ART initiation was significantly associated with shorter survival after controlling for baseline CD4 count, but neither having injection drug use (IDU) history nor previous ADIs were associated with poor survival. Semi-competing risks analysis in 951 patients without ADIs history prior to ART showed those who developed ADIs after starting ART were at higher risk of death in the first six months than after six months.

Conclusion

ADIs were not rare in spite of being on effective ART. Age over 50 years, but not IDU history, was associated with shorter survival in the cohort. This study provides in-depth data on the prognosis of patients on ART in Vietnam during the first decade of ART scale-up.