Stress-induced dynamic regulation of mitochondrial STAT3 and its association with cyclophilin D reduce mitochondrial ROS production.

Signal transducer and activator of transcription 3 (STAT3) is associated with various physiological and pathological functions, mainly as a transcription factor that translocates to the nucleus upon tyrosine phosphorylation induced by cytokine stimulation. In addition, a small pool of STAT3 resides in the mitochondria, where it serves as a sensor for various metabolic stressors including reactive oxygen species (ROS). Mitochondrially localized STAT3 largely exerts its effects through direct or indirect regulation of the activity of the electron transport chain (ETC). It has been assumed that the amounts of STAT3 in the mitochondria are static. We showed that various stimuli, including oxidative stress and cytokines, triggered a signaling cascade that resulted in a rapid loss of mitochondrially localized STAT3. Recovery of the mitochondrial pool of STAT3 over time depended on phosphorylation of Ser727 in STAT3 and new protein synthesis. Under these conditions, mitochondrially localized STAT3 also became competent to bind to cyclophilin D (CypD). Binding of STAT3 to CypD was mediated by the amino terminus of STAT3, which was also important for reducing mitochondrial ROS production after oxidative stress. These results outline a role for mitochondrially localized STAT3 in sensing and responding to external stimuli.

Mutations in the linker domain affect phospho-STAT3 function and suggest targets for interrupting STAT3 activity.

Crystallography of the cores of phosphotyrosine-activated dimers of STAT1 (132-713) and STAT3 (127-722) bound to a similar double-stranded deoxyoligonucleotide established the domain structure of the STATs and the structural basis for activation through tyrosine phosphorylation and dimerization. We reported earlier that mutants in the linker domain of STAT1 that connect the DNA-binding domain and SH2 domain can prevent transcriptional activation. Because of the pervasive importance of persistently activated STAT3 in many human cancers and the difficulty of finding useful drug candidates aimed at disrupting the pY interchange in active STAT3 dimers, we have examined effects of an array of mutants in the STAT3 linker domain. We have found several STAT3 linker domain mutants to have profound effects of inhibiting STAT3 transcriptional activation. From these results, we propose (i) there is definite functional interaction of the linker both with the DNA binding domain and with the SH2 domain, and (ii) these putative contacts provide potential new targets for small molecule-induced pSTAT3 inhibition.

A majority of m6A residues are in the last exons, allowing the potential for 3' UTR regulation.

We adapted UV CLIP (cross-linking immunoprecipitation) to accurately locate tens of thousands of m(6)A residues in mammalian mRNA with single-nucleotide resolution. More than 70% of these residues are present in the 3'-most (last) exons, with a very sharp rise (sixfold) within 150-400 nucleotides of the start of the last exon. Two-thirds of last exon m(6)A and >40% of all m(6)A in mRNA are present in 3' untranslated regions (UTRs); contrary to earlier suggestions, there is no preference for location of m(6)A sites around stop codons. Moreover, m(6)A is significantly higher in noncoding last exons than in next-to-last exons harboring stop codons. We found that m(6)A density peaks early in the 3' UTR and that, among transcripts with alternative polyA (APA) usage in both the brain and the liver, brain transcripts preferentially use distal polyA sites, as reported, and also show higher proximal m(6)A density in the last exons. Furthermore, when we reduced m6A methylation by knocking down components of the methylase complex and then examined 661 transcripts with proximal m6A peaks in last exons, we identified a set of 111 transcripts with altered (approximately two-thirds increased proximal) APA use. Taken together, these observations suggest a role of m(6)A modification in regulating proximal alternative polyA choice.

Global histone H3 lysine 27 (H3K27) methylation levels and their prognostic relevance in renal cell carcinoma.

OBJECTIVE: To evaluate if histone H3 lysine 27 (H3K27) methylation plays a role in renal cell carcinoma (RCC) tissue and whether its expression is a predictor of cancer recurrence in RCC. MATERIALS AND METHODS: A tissue microarray (TMA) with 193 RCC specimens (comprising 142 clear-cell, 31 papillary, 10 chromophobe and 10 sarcomatoid RCC), 10 oncocytoma tissue specimens and a TMA with 30 benign renal tissue samples were stained with antibodies against H3K27-monomethyl (H3K27me1), H3K27-dimethyl (H3K27me2) and H3K27-trimethyl (H3K27me3). Sections were scored according to staining intensity and the proportion of epithelial cells showing nuclear staining. H3K27 methylation levels were correlated with established clinical-pathological variables (tumour-node-metastasis [TNM] stage, Fuhrman grade) and progression-free/cancer-specific survival. RESULTS: H3K27me1/-me2/-me3 staining was significantly more intense in papillary RCC then in clear-cell RCC. H3K27me3 levels were higher in oncocytoma than in RCC. H3K27me1/-me2/-me3 methylation levels were inversely correlated with Fuhrman grading and pT-stage. Global H3K27me1/-me2/-me3 methylation levels were always higher in benign renal tissue than in RCC with tumour relapse (H3K27me1 P < 0.001, H3K27me2 P= 0.032, H3K27me3 P= 0.004). Progression-free survival was shorter in patients with lower levels of H3K27me1 and H3K27me3 in the univariate analysis. The newly created H3K27me score (combining the staining levels of the single modifications) was a significant and independent predictor of RCC progression-free survival. CONCLUSION: The present study on H3K27-methylation supports the hypothesis that global histone modifications are potential markers of cancer prognosis in RCC. One reason could be that decreased H3K27 indicates transcriptional activation and therefore predicts cancer activation.

Global histone acetylation levels: prognostic relevance in patients with renal cell carcinoma.

Epigenetic alterations play an important role in carcinogenesis. Recent studies have suggested that global histone modifications are predictors of cancer recurrence in various tumor entities. Global histone acetylation levels (histone H3 lysine 9 acetylation [H3K9Ac], histone H3 lysine 18 acetylation [H3K18Ac], total histone H3 acetylation [H3Ac] and total histone H4 acetylation [H4Ac]) were determined in patients with renal cell carcinoma (RCC) using immunohistochemistry in a tissue micro array with 193 RCC and 10 oncocytoma specimens. The histone acetylation pattern was not different among the diverse histological subtypes of RCC or oncocytoma samples. The H3Ac levels were inversely correlated with pT-stage (P = 0.005), distant metastasis (P = 0.036), Fuhrman grading (P = 0.001) and RCC progression (P = 0.029, hazard ratio 0.87). H4Ac deacetylation was correlated with pT-stage (P = 0.011) and grading (P = 0.029). H3K18Ac levels were an independent predictor of cancer-progression following surgery for localized RCC in the univariate (P = 0.001, hazard ratio 0.78) and multivariate (P = 0.005, hazard ratio 0.82) analysis. In conclusion, our study supports the concept of global histone modification levels as a universal cancer prognosis marker, and provides evidence for the use of histone deacetylases inhibitors as future drugs in the therapy of RCC.

Prognostic relevance of global histone H3 lysine 4 (H3K4) methylation in renal cell carcinoma.

Epigenetic alterations play an important role in carcinogenesis. Recent studies suggested that global histone modifications are predictors of cancer recurrence in various tumor entities. Our study was performed to evaluate histone H3 lysine 4 mono-methyl (H3K4me1), -di-methyl (H3K4me2) and -trimethyl (H3K4me3) patterns in renal cell carcinoma (RCC) using a tissue microarray with 193 RCC (including 142 clear cell, 31 papillary, 10 chromophobe and 10 sarcomatoid RCC) and 10 oncocytoma specimens: H3K4me3 staining was more intense in papillary RCC, whereas H3K4me1 and H3K4me2 were similar in the diverse RCC subtypes. H3K4me2 and H3K4me3 levels were increased in oncocytoma. H3K4me1-3 levels were inversely correlated with Fuhrman grading, pT stage, lymph node involvement and distant metastasis. Progression-free survival and cancer-specific survival were shorter in patients with low levels of H3K4me1-3 in the univariate analysis, but we did not observe a significant correlation of a single modification in a multivariate model, which also included the established prognostic parameters TNM-stage and Fuhrman grade. In comparison, the H3K4me score, which combined staining levels of the H3K4 modifications, was an independent predictor of RCC progression-free survival. Our study on H3K4 methylation supports the concept of global histone modifications as potential cancer prognosis markers.

Different functional modes of p300 in activation of RNA polymerase III transcription from chromatin templates.

Transcriptional coactivators that regulate the activity of human RNA polymerase III (Pol III) in the context of chromatin have not been reported. Here, we describe a completely defined in vitro system for transcription of a human tRNA gene assembled into a chromatin template. Transcriptional activation and histone acetylation in this system depend on recruitment of p300 by general initiation factor TFIIIC, thus providing a new paradigm for recruitment of histone-modifying coactivators. Beyond its role as a chromatin-modifying factor, p300 displays an acetyltransferase-independent function at the level of preinitiation complex assembly. Thus, direct interaction of p300 with TFIIIC stabilizes binding of TFIIIC to core promoter elements and results in enhanced transcriptional activity on histone-free templates. Additional studies show that p300 is recruited to the promoters of actively transcribed tRNA and U6 snRNA genes in vivo. These studies identify TFIIIC as a recruitment factor for p300 and thus may have important implications for the emerging concept that tRNA genes or TFIIIC binding sites act as chromatin barriers to prohibit spreading of silenced heterochromatin domains.

Crystal structure of unphosphorylated STAT3 core fragment.

Signal transducers and activators of transcription (STATs) are latent cytoplasmic transcriptional factors that play an important role in cytokine and growth factor signaling. Here we report a 3.05 A-resolution crystal structure of an unphosphorylated STAT3 core fragment. The overall monomeric structure is very similar to that of the phosphorylated STAT3 core fragment. However, the dimer interface observed in the unphosphorylated STAT1 core fragment structure is absent in the STAT3 structure. Solution studies further demonstrate that the core fragment of STAT3 is primarily monomeric. Mutations corresponding to those in STAT1, which lead to disruption of the core fragment interface and prolonged tyrosine phosphorylation, show little or no effect on the tyrosine phosphorylation kinetics of STAT3. These results highlight the structural and biochemical differences between STAT3 and STAT1, and suggest different regulation mechanisms of these two proteins.

Welfare assessment and phenotype characterisation of transgenic mice.

Induced mutations can cause new and unpredictable phenotypes and may impact the health and welfare of animals. Impairments may arise within normal husbandry and breeding regimes i.e. before starting to do experiments. In order to apply the 3R principles and to use transgenic animals under high scientific and welfare standards, two structured forms for individual health monitoring and strain characterisation have been developed. They are available at: www.vu-wien.ac.at/labortierkunde or www.altex.ch.

Dephosphorylation of phosphotyrosine on STAT1 dimers requires extensive spatial reorientation of the monomers facilitated by the N-terminal domain.

We report experiments that infer a radical reorientation of tyrosine-phosphorylated parallel STAT1 dimers to an antiparallel form. Such a change in structure allows easy access to a phosphatase. With differentially epitope-tagged molecules, we show that the two monomers of a dimer remain together during dephosphorylation although they most likely undergo spatial reorientation. Extensive single amino acid mutagenesis within crystallographically established domains, manipulation of amino acids in an unstructured tether that connects the N-terminal domain (ND) to the core of the protein, and the demonstration that overexpressed ND can facilitate dephosphorylation of a core molecule lacking an ND all support this model: When the tyrosine-phosphorylated STAT1 disengages from DNA, the ND dimerizes and somehow assists in freeing the reciprocal pY-SH2 binding between the monomers of the dimer while ND ND dimerization persists. The core of the monomers rotate allowing reciprocal association of the coiled:coil and DNA-binding domains to present pY at the two ends of an antiparallel dimer for ready dephosphorylation.

[Limitations and possibilities of applying the positive effects of human/animal relations in the treatment of psychological ailments]. / Limites et possibilités d'application des effets positifs de la relation Homme/Animal au traitement des maladies psychiques.

For the 72nd Psychiatric Saar-Lorr-Lux Symposium (Sept. 2004 at the Neuropsychiatric Hospital (CHNP) in Ettelbruck, LUXEMBOURG), Dr. Jean-Marie Spautz, director, brought together professionals of varied disciplines, each involved in Animal Assisted Therapy (AAT).

[Working in Swiss animal experimentation committees]

According to Swiss law (as of December, 1991), the animal protection movement has the right to have representatives in Animal Experimentation Committees. These committees control the use of animals in research and teaching by reviewing research proposals that may cause suffering to animals. They then advise the authorities on whether a license to do the experiment can be issued. In April 1993, all 86 members of one of the 14 Animal Experimentation Committees were contacted by the Swiss Society for the Protection of Animals (SPA). They were asked to fill out a questionnaire by indicating their preferences with respect to many statements about their honorary activity and their committee (multiple choice). Only 28 members responded (= 33%); 14 of them were delegates of an animal protection organization, 14 were not. From all possible statements the profile of a satisfied and of a dissatisfied committee member was built. Then the degree of satisfaction was calculated for several aspects and the two groups of respondents were compared by Chi2-tests. Overall, committee members seem to be quite happy with their job and satisfied with the licenses given. However, there are several points of criticism. Although animal protectionists tend to have a more critical view, they hardly differ statistically from other committee members.