Synthesis and biological characterisation of sirtuin inhibitors based on the tenovins

The tenovins are small molecule inhibitors of the NAD(+)-dependent family of protein deacetylases known as the sirtuins. There remains considerable interest in inhibitors of this enzyme family due to possible applications in both cancer and neurodegenerative disease therapy. Through the synthesis of novel tenovin analogues, further insights into the structural requirements for activity against the sirtuins in vitro are provided. In addition, the activity of one of the analogues in cells led to an improved understanding of the function of SirT1 in cells.     

Synthesis and biological evaluation of novel anticancer bivalent colchicine-tubulizine hybrids

A series of novel antimitotic hybrids were synthesized in good yields by linking of azide-containing colchicine congeners with acetylene-substituted tubulizine-type derivatives using copper-mediated 1,3-dipolar cycloaddition. Obtained compounds exhibit good cytotoxicity against HBL100 epithelial cell lines (IC(50)=0.599-2.93 μМ). Several newly synthesized compounds are the substoichiometric inhibitors of microtubule assembly (R=0.41-0.78). The results highlight the importance of the length of spacer linking the tubulin binding ligands in heterodimeric molecules.     

mRNA Translation Regulation by the Gly-Ala Repeat of Epstein-Barr Virus Nuclear Antigen 1

The glycine-alanine repeat (GAr) sequence of the Epstein-Barr virus-encoded EBNA-1 prevents presentation of antigenic peptides to major histocompatibility complex class I molecules. This has been attributed to its capacity to suppress mRNA translation in cis. However, the underlying mechanism of this function remains largely unknown. Here, we have further investigated the effect of the GAr as a regulator of mRNA translation. Introduction of silent mutations in each codon of a 30-amino-acid GAr sequence does not significantly affect the translation-inhibitory capacity, whereas minimal alterations in the amino acid composition have strong effects, which underscores the observation that the amino acid sequence and not the mRNA sequence mediates GAr-dependent translation suppression. The capacity of the GAr to repress translation is dose and position dependent and leads to a relative accumulation of preinitiation complexes on the mRNA. Taken together with the surprising observation that fusion of the 5′ untranslated region (UTR) of the c-myc mRNA to the 5′ UTR of GAr-carrying mRNAs specifically inactivates the effect of the GAr, these results indicate that the GAr targets components of the translation initiation process. We propose a model in which the nascent GAr peptide delays the assembly of the initiation complex on its own mRNA.Epstein-Barr Virus (EBV) nuclear antigen 1 (EBNA-1) and latency-associated nuclear antigen 1 (LANA-1), from Kaposi''s sarcoma-associated herpesvirus (KSHV), are major latency proteins of these two gammaherpesviruses that are essential for maintaining viral episomes in infected cells (21, 22). Independent studies suggest that both proteins have evolved mechanisms to remain largely invisible to the immune system, which could otherwise eliminate latently infected cells (8, 9, 19, 25). These mechanisms act in cis and are mediated via an internal repeat region. In the case of EBNA-1 this region consists of an N-terminal glycine-alanine repeat (GAr), and for LANA-1 the region consists of a glutamine-glutamate-aspartate central repeat (QED-CR). Although the two domains do not share amino acid homology, both retard their own synthesis to reduce the production of defective ribosomal products that can be processed for the major histocompatibility complex (MHC) class I-restricted antigen presentation pathway (23, 24), highlighting the importance of translation control in regulating MHC class I-restricted antigen presentation. To compensate for their low rates of synthesis, both proteins also have slow turnover rates (4, 8).Regulation of translation for most prokaryotic and eukaryotic mRNAs occurs at the level of initiation, but there are examples where regulation of protein synthesis depends on the elongation stage (17). The two main types of translation initiation are the classic cap-dependent and the less frequent cap-independent translation mechanisms (5, 7, 11, 14, 16). In the former, the preinitiation complex is formed around the cap structure in the 5′ untranslated region (UTR) of the message, whereas in the latter the 40S subunit is directed toward the mRNA via an internal ribosome entry site (IRES). The mechanism of GAr- and LANA-1-mediated control of translation seems different from other types of viral regulation in several aspects. The EBNA-1 GAr is 60 to 300 amino acids long, depending on virus isolate, and is positioned in the N-terminal part of the protein. The GAr message is GC rich but does not activate protein kinase R and eukaryotic initiation factor 2α phosphorylation (25). The fact that the GAr has to be encoded to suppress translation, coupled with the restricted use of GGG and GGA codons to express Gly and of GCA to express Ala in the GAr (GAT, GAG, and CAG for aspartic acid, glutamic acid, and glutamine, respectively, in the LANA sequence), could suggest that codon exhaustion might explain the effect of these repeats. However, manipulations of sequence order, orientation, and composition of the QED-CR and GAr domains and the observation that antibodies directed toward the GAr can stimulate translation in vitro instead favor a direct role for the amino acid sequence (8, 25).Here, we have studied GAr-mediated regulation of translation in vitro and in vivo. The results presented suggest that, once synthesized, the nascent GAr peptide sequence prevents the assembly of the following upstream ribosomes. This knowledge should further understanding of how amino acid repeat sequences can affect mRNA translation in cis and should shed light on a novel type of viral control of mRNA translation and its implications in regulating MHC class I-restricted antigen presentation.     

Effectiveness of focused structural massage and relaxation massage for chronic low back pain: protocol for a randomized controlled trial

Background

Hypertension affects 29% of the adult U.S. population and is a leading cause of heart disease, stroke, and kidney failure. Despite numerous effective treatments, only 53% of people with hypertension are at goal blood pressure. The chronic care model suggests that blood pressure control can be achieved by improving how patients and physicians address patient self-care.

Methods and design

This paper describes the protocol of a nested 2 × 2 randomized controlled trial to test the separate and combined effects on systolic blood pressure of a behavioral intervention for patients and a quality improvement-type intervention for physicians. Primary care practices were randomly assigned to the physician intervention or to the physician control condition. Physician randomization occurred at the clinic level. The physician intervention included training and performance monitoring. The training comprised 2 internet-based modules detailing both the JNC-7 hypertension guidelines and lifestyle modifications for hypertension. Performance data were collected for 18 months, and feedback was provided to physicians every 3 months. Patient participants in both intervention and control clinics were individually randomized to the patient intervention or to usual care. The patient intervention consisted of a 6-month behavioral intervention conducted by trained interventionists in 20 group sessions, followed by 12 monthly phone contacts by community health advisors. Follow-up measurements were performed at 6 and 18 months. The primary outcome was the mean change in systolic blood pressure at 6 months. Secondary outcomes were diastolic blood pressure and the proportion of patients with adequate blood pressure control at 6 and 18 months.

Discussion

Overall, 8 practices (4 per treatment group), 32 physicians (4 per practice; 16 per treatment group), and 574 patients (289 control and 285 intervention) were enrolled. Baseline characteristics of patients and providers and the challenges faced during study implementation are presented. The HIP interventions may improve blood pressure control and lower cardiovascular disease risk in a primary care practice setting by addressing key components of the chronic care model. The study design allows an assessment of the effectiveness and cost of physician and patient interventions separately, so that health care organizations can make informed decisions about implementation of 1 or both interventions in the context of local resources.

Trial registration

ClinicalTrials.gov identifier NCT00201136     

Newly formed E‐cadherin contacts do not activate Cdc42 or induce filopodia protrusion in human keratinocytes1

Background information. The appropriate regulation of cell–cell adhesion is an important event in the homoeostasis of different cell types. In epithelial cells, tight adhesion mediated by E‐cadherin receptors is essential for the differentiation and functionality of epithelial sheets. Upon assembly of cadherin‐mediated cell–cell contacts, it is well established that the small GTPases Rho and Rac are activated and are necessary for junction stability. However, the role of the small GTPase Cdc42 in cadherin adhesion is less clear. Cdc42 can be activated by E‐cadherin in a breast tumour cell line, but the requirement for Cdc42 function for new junction assembly or maintenance has been contradictory. Cdc42 participation in cell–cell contacts has been inferred from the presence of filopodia, the typical F‐actin structure induced by Cdc42 activation, as cells approach each other to establish cell–cell contacts. Yet, under these conditions, the contribution of migration to filopodia protrusion cannot be excluded and the results are difficult to interpret. Results. In the present study, we set out to address (a) whether Cdc42 is activated by new E‐cadherin cell–cell contacts when junction assembly occurs without prior migration and (b) whether Cdc42 function is necessary for cadherin stability. We found that junction formation in confluent keratinocytes or upon E‐cadherin clustering decreased Cdc42‐GTP levels. In the absence of serum‐ and migration‐induced Cdc42 activation, we demonstrated that cell–cell contacts do not induce filopodia or require Cdc42 function to assemble. Conclusion. We conclude that Cdc42 does not participate in the early events that initiate stable cadherin adhesion in keratinocytes. Yet, it is feasible that Cdc42 may be activated at later time points or by other receptors. Cdc42 can then participate in additional functions during polarization, such as Golgi re‐positioning or basolateral trafficking.     

Discovery and structure–activity relationship of a novel spirocarbamate series of NPY Y5 antagonists

A novel series of trans-8-aminomethyl-1-oxa-3-azaspiro[4.5]decan-2-one derivatives was identified with potent NPY Y5 antagonist activity. Optimization of the original lead furnished compounds 23p and 23u, which combine sub-nanomolar Y5 activity with metabolic stability, oral bioavailability, brain penetration and strong preclinical profile for development. Both compounds significantly inhibited the food intake induced by a Y5 selective agonist with minimal effective doses of 3 mg/kg po.     

PTPH1 is a predominant protein-tyrosine phosphatase capable of interacting with and dephosphorylating the T cell receptor zeta subunit

Protein-tyrosine phosphatases (PTPases) play key roles in regulating tyrosine phosphorylation levels in cells, yet the identity of their substrates remains limited. We report here on the identification of PTPases capable of dephosphorylating the phosphorylated immune tyrosine-based activation motifs present in the T cell receptor zeta subunit. To characterize these PTPases, we purified enzyme activities directed against the phosphorylated T cell receptor zeta subunit by a combination of anion and cation chromatography procedures. A novel ELISA-based PTPase assay was developed to rapidly screen protein fractions for enzyme activity following the various chromatography steps. We present data that SHP-1 and PTPH1 are present in highly enriched protein fractions that exhibit PTPase activities toward a tyrosine-phosphorylated TCR zeta substrate (specific activity ranging from 0.23 to 40 pmol/min/microg). We also used a protein-tyrosine phosphatase substrate-trapping library comprising the catalytic domains of 47 distinct protein-tyrosine phosphatases, representing almost all the tyrosine phosphatases identified in the human genome. PTPH1 was the predominant phosphatase capable of complexing phospho-zeta. Subsequent transfection assays indicated that SHP-1 and PTPH1 are the two principal PTPases capable of regulating the phosphorylation state of the TCR zeta ITAMs, with PTPH1 directly dephosphorylating zeta. This is the first reported demonstration that PTPH1 is a candidate PTPase capable of interacting with and dephosphorylating TCR zeta.