A cross-sectional study of ageing at the mouse neuromuscular junction and effects of an experimental therapeutic approach for dynapenia.

Despite prior efforts to understand and target dynapenia (age-induced loss of muscle strength), this condition remains a major challenge that reduces the quality of life in the aged population. We have focused on the neuromuscular junction (NMJ) where changes in structure and function have rarely been systematically studied as a dynamic and progressive process. Our cross-sectional study found neurotransmission at the male mouse NMJ to be biphasic, displaying an early increase followed by a later decrease, and this phenotype was associated with structural changes to the NMJ. A cross-sectional characterization showed that age-induced alterations fell into four age groups: young adult (3-6 months), adult (7-18 months), early aged (19-24 months), and later aged (25-30 months). We then utilized a small molecule therapeutic candidate, GV-58, applied acutely during the later aged stage to combat age-induced reductions in transmitter release by increasing calcium influx during an action potential, which resulted in a significant increase in transmitter release. This comprehensive study of neuromuscular ageing at the NMJ will enable future research to target critical time points for therapeutic intervention. KEY POINTS: Age-induced frailty and falls are the leading causes of injury-related death and are caused by an age-induced loss of muscle strength due to a combination of neurological and muscular changes. A cross-sectional approach was used to study age-induced changes to the neuromuscular junction in a mouse model, and physiological changes that were biphasic over the ageing time course were found. Changes in physiology at the neuromuscular junction were correlated with alterations in neuromuscular junction morphology. An acutely applied positive allosteric gating modifier of presynaptic voltage-gated calcium channels was tested as a candidate therapeutic strategy that could increase transmitter release at aged neuromuscular junctions. These results provide a detailed time course of age-induced changes at the neuromuscular junction in a mouse model and test a candidate therapeutic strategy for weakness.

The impact of ionizing radiation on placental trophoblasts.

INTRODUCTION: Exposure to low-dose radiation is widespread and attributable to natural sources. However, occupational, medical, accidental, and terrorist-related exposures remain a significant threat. Information on radiation injury to the feto-placental unit is scant and largely observational. We hypothesized that radiation causes trophoblast injury, and alters the expression of injury-related transcripts in vitro or in vivo, thus affecting fetal growth. METHODS: Primary human trophoblasts (PHTs), BeWo or NCCIT cells were irradiated in vitro, and cell number and viability were determined. Pregnant C57Bl/6HNsd mice were externally irradiated on E13.5, and placentas examined on E17.5. RNA expression was analyzed using microarrays and RT-qPCR. The experiments were repeated in the presence of the gramicidin S (GS)-derived nitroxide JP4-039, used to mitigate radiation-induced cell injury. RESULTS: We found that survival of in vitro-irradiated PHT cell was better than that of irradiated BeWo trophoblast cell line or the radiosensitive NCCIT mixed germ cell tumor line. Radiation altered the expression of several trophoblast genes, with a most dramatic effect on CDKN1A (p21, CIP1). Mice exposed to radiation at E13.5 exhibited a 25% reduction in mean weight by E17.5, and a 9% reduction in placental weight, which was associated with relatively small changes in placental gene expression. JP4-039 had a minimal effect on feto-placental growth or on gene expression in irradiated PHT cells or mouse placenta. DISCUSSION AND CONCLUSION: While radiation affects placental trophoblasts, the established placenta is fairly resistant to radiation, and changes in this tissue may not fully account for fetal growth restriction induced by ionizing radiation.

Pharmacophore-guided lead optimization: the rational design of a non-zinc coordinating, sub-micromolar inhibitor of the botulinum neurotoxin serotype a metalloprotease.

Botulinum neurotoxins, responsible for the neuroparalytic syndrome botulism, are the deadliest of known biological toxins. The work described in this study was based on a three-zone pharmacophore model for botulinum neurotoxin serotype A light chain inhibition. Specifically, the pharmacophore defined a separation between the overlaps of several different, non-zinc(II)-coordinating small molecule chemotypes, enabling the design and synthesis of a new structural hybrid possessing a Ki=600 nM (+/-100 nM).

Discovery and biological evaluation of a new family of potent inhibitors of the dual specificity protein phosphatase Cdc25.

The Cdc25 dual specificity phosphatases have central roles in coordinating cellular signaling processes and cell proliferation, but potent and selective inhibitors are lacking. We experimentally examined the 1990 compound National Cancer Institute Diversity Set and then computationally selected from their 140 000 compound repository 30 quinolinediones of which 8 had in vitro mean inhibitory concentrations <1 microM. The most potent was 6-chloro-7-(2-morpholin-4-ylethylamino)quinoline-5,8-dione (NSC 663284), which was 20- and 450-fold more selective against Cdc25B(2) as compared with VHR or PTP1B phosphatases, respectively. NSC 663284 exhibited mixed competitive kinetics against Cdc25A, Cdc25B(2), and Cdc25C with K(i) values of 29, 95, and 89 nM, respectively. As compared with NSC 663284, the regioisomer 7-chloro-6-(2-morpholin-4-ylethylamino)quinoline-5,8-dione was 3-fold less active against Cdc25B(2) in vitro and less potent as a growth inhibitor of human breast cancer cells. Computational electrostatic potential mapping suggested the need for an electron-deficient 7-position for maximal inhibitor activity. Using a chemical complementation assay, we found that NSC 663284 blocked cellular Erk dephosphorylation caused by ectopic Cdc25A expression.

New inhibitors of the thioredoxin-thioredoxin reductase system based on a naphthoquinone spiroketal natural product lead.

Natural products of the naphthoquinone spiroketal structural type served as lead structures for the development of novel inhibitors of the thioredoxin-thioredoxin reductase redox system. The most potent compound in this series inhibited thioredoxin with an IC(50) of 350 nM, and many derivatives showed low micromolar activities for growth inhibition against two breast cancer cell lines.

Determining absolute configuration in flexible molecules: a case study.

Assigning absolute configuration of molecules continues to be a major problem. Determining absolute configuration in conformationally flexible systems is challenging, even for experts. Here, we present a case study in which we use a combination of molecular modeling, solution NMR, and X-ray crystallography to illustrate why it is difficult to use solution methods alone for configuration assignment. For the case examined, a comparison of calculated and experimental optical rotatory dispersion (ORD) data provides the most straightforward way to assign the absolute configuration.

Tandem zirconocene homologation-aldimine allylation.

[reaction: see text]. Hydrozirconation of internal and terminal alkynes followed by in situ transmetalation to dimethylzinc and treatment with diiodomethane leads to chain extended allylic organometallics. Addition to N-phosphinoyl or N-sulfonyl aldimines provides homoallylic amines in 48-87% yield and 3:2 to >20:1 diastereomeric ratios favoring anti-products.

Water-accelerated tandem Claisen rearrangement-catalytic asymmetric carboalumination.

[reaction: see text] The addition of stoichiometric quantities of water accelerates both the trimethylaluminum-mediated aromatic Claisen reaction and the chiral zirconocene-catalyzed asymmetric carboalumination of terminal alkenes. The two reactions occur in a tandem sequence resulting in the selective formation of two new C-C and one C-O bond after oxidative quench of the intermediate trialkylalane.

Synthetic studies toward diazonamide A. A novel approach for polyoxazole synthesis.

[Reaction in text]The indole-bisoxazole fragment of diazonamide A was prepared by a Chan-type rearrangement of a tertiary amide. This approach represents a remarkably direct strategy for polyoxazole synthesis.

Enantioselective synthesis of the AB-ring system of the antitumor antibiotic tetrazomine.

The synthesis of the 1,2,3,4-tetrahydroisoquinoline moiety of tetrazomine was accomplished in 18 steps and in 3% overall yield from commercially available o-anisaldehyde. The reaction sequence utilizes a Sharpless asymmetric dihydroxylation to install the stereocenter and an intramolecular Friedel--Crafts hydroxyalkylation with an N-protected 2-oxo-acetamide to close the heterocyclic ring.

Antimitotic actions of a novel analog of the fungal metabolite palmarumycin CP1.

The pentacyclic palmarumycins are structurally unique natural products with both antifungal and antibacterial activities but their antineoplastic effects are not well established. We have examined their antiproliferative actions against tumor cells using a temperature-sensitive tsFT210 mouse mammary carcinoma cell line and found that a novel palmarumycin analog, [8-(furan-3-ylmethoxy)-1-oxo-1,4-dihydronaphthalene-4-spiro-2'-naphtho[1",8"-de][1',3'][dioxin] or SR-7, prominently blocked mammalian cell cycle transition in G2/M but not in G1 phase. We found no evidence for inhibition of the critical mitosis-controlling cyclin-dependent kinase Cdk1, or its regulator, the dual specificity phosphatase Cdc25. Moreover, Cdk1 was hypophosphorylated and not directly inhibited by SR-7. SR-7 also failed in vitro to hypernucleate bovine tubulin, did not compete with colchicine for tubulin binding, and only modestly blocked GTP-induced assembly. In addition, SR-7 caused almost equal inhibition of paclitaxel-sensitive and -resistant cell growth. Moreover, unlike benchmark tubulin-disrupting agents, SR-7 did not cause hyperphosphorylation of the antiapoptotic protein Bcl-2. Thus, SR-7 represents a novel chemical structure that can inhibit G2/M transition by a mechanism that appears to be independent of marked tubulin disruption.

Sulfonylated aminothiazoles as new small molecule inhibitors of protein phosphatases.

Based on a previously identified lead structure, SC-alphaalphadelta9, we have developed a versatile new chemical scaffold that can be readily modified to generate libraries of both Tyr and dual specificity phosphatase inhibitors with reduced molecular weight and lipophilicity. The most potent analogue identified to date, aminothiazole 8z, inhibits the dual specificity phosphatase Cdc25B with a Ki of 4.6+/-0.4 microM and a Hill coefficient of 2.

Formal total synthesis of (+)-diepoxin sigma.

The highly oxygenated antifungal anticancer natural product (+/-)-diepoxin sigma was prepared in 10 steps and in 15% overall yield from O-methylnaphthazarin. Highlights of the synthetic work include an Ullmann coupling and a possibly biomimetic oxidative spirocyclization for the introduction of the naphthalene ketal as well as the use of a retro-Diels-Alder reaction to unmask the reactive enone moiety in the naphthoquinone bisepoxide ring system. A novel highly bulky chiral binaphthol ligand was developed for a boron-mediated Diels-Alder reaction that constitutes a formal asymmetric total synthesis of (+)-diepoxin sigma.

Identification of new Cdc25 dual specificity phosphatase inhibitors in a targeted small molecule array.

Dual specificity protein phosphatases (DSPases) are key regulators of signal transduction, oncogenesis and the cell cycle. Few potent or specific inhibitors of DSPases, however, are readily available for these pharmacological targets. We have used a combinatorial/parallel synthetic approach to rigidify the variable core region and modify the side chains of 4-(benzyl-(2-[2,5-diphenyl-oxazole-4-carbonyl)-amino]-ethyl)-carbamoyl)- 2-decanoylamino butyric acid (or SC-alphaalphadelta9), which is the most active element in a previously described library of phosphatase inhibitors (Rice, R. L.; Rusnak, J. M.; Yokokawa, F.; Yokokawa, S.; Messner, D. J.; Boynton, A. L.; Wipf, P.; Lazo, J. S. Biochemistry 1997, 36, 15965). Several analogues were identified as effective inhibitors of the protein tyrosine phosphatase (PTPase) PTP1B and the DSPases VHR and Cdc25B2. Two compounds, FY3-alphaalpha09 and FY21-alphaalpha09, were partial competitive inhibitors of Cdc25B2 with Ki values of 7.6+/-0.5 and 1.6+/-0.2 microM, respectively. FY21-alphaalpha09 possessed only moderate activity against PTP1B. Consistent with its in vitro anti-phosphatase activity, FY21-alphaalpha09 inhibited growth in MDA-MB-231 and MCF-7 human breast cancer cell lines. FY21-alphaalpha09 also inhibited the G2/M transition in tsFT210 cells, consistent with Cdc25B inhibition. Several architectural requirements for DSPase inhibition were revealed through modification of the side chain moieties or variable core region of the pharmacophore, which resulted in decreased compound potency. The structure of FY21-alphaalpha09 provides a useful platform from which additional potent and more highly selective phosphatase inhibitors might be generated.

Water/MAO acceleration of the zirconocene-catalyzed asymmetric methylalumination of alpha-olefins

The zirconocene-catalyzed enantioselective methylalumination of terminal alkenes is greatly accelerated in the presence of water. Terminal olefins that are inert under the standard conditions can be readily methylated in good yields and with good to high enantioselectivities. Furthermore, methylaluminoxane is also shown to accelerate the reaction, albeit at a lesser rate.

Chiral action at a distance: remote substituent effects on the optical activity of calyculins A and B.

[structure--see text] Calyculins A and B differ only by the (E)- vs (Z)-configuration at C(2). Yet, they show a large difference in optical rotations. We demonstrate a new strategy that provides a physical analysis of this long-range chiro-optical effect by Boltzmann-averaged atomic contribution mapping. The polarizability characteristics of the CN substituent rather than the perturbation of the stereogenic centers or the introduction of asymmetry into the polyene chain give rise to the remarkable difference in rotation angles.