Michelle A. Camerino

(+)-Fluorenylethylchloroformate (FLEC) – improved synthesis for application in chiral analysis and peptidomimetic synthesis

An efficient synthesis of the enantiomers of fluorenylethylchloroformate (FLEC) has been achieved that allows the routine application of the reagent for the resolution of chiral amines including unusual amino acids. The utility of the fluorenylethoxycarbonyl (Feoc) group as a chiral Fmoc equivalent, for combined resolution and protection of amino acids, in solid phase peptide synthesis is also shown.

Beta amino acid‐modified and fluorescently labelled kisspeptin analogues with potent KISS1R activity

Kisspeptin analogues with improved metabolic stability may represent important ligands in the study of the kisspeptin/KISS1R system and have therapeutic potential. In this paper we assess the activity of known and novel kisspeptin analogues utilising a dual luciferase reporter assay in KISS1R‐transfected HEK293T cells. In general terms the results reflect the outcomes of other assay formats and a number of potent agonists were identified among the analogues, including β2‐hTyr‐modified and fluorescently labelled forms. We also showed, by assaying kisspeptin in the presence of protease inhibitors, that proteolysis of kisspeptin activity within the reporter assay itself may diminish the agonist outputs. Copyright

Solid Phase Synthesis and Circular Dichroism Analysis of (i → i + 4) Cyclic Lactam Analogues of Kisspeptin

The α-helix is one of the most common secondary structure elements adopted by proteins and is commonly stabilized in synthetic peptides via the formation of a covalent side-chain to side-chain lactam bridge. In this study, we explored the application of various side-chain to side-chain lactam bridges to helix stabilization of kisspeptin analogues, an interesting candidate for ligand-based drug discovery with potential as anti-metastatic agents. We successfully synthesised a series of Asp/Lys, Lys/Asp, Glu/Lys and Lys/Glu lactams, finding peptide (1) cyclo(4,8)Tyr-Asn-Trp-Glu-Ala-Phe-Gly-Lys-Arg-Phe-NH2, to exhibit characteristic α-helical activity in aqueous buffer, in comparison to the linear native peptide, which showed no helical character.

Abstract 5371: PRMT5 inhibitors as novel treatment for cancers

Increased expression or dysregulation of protein arginine methyltransferase 5 (PRMT5) activity is associated with poor prognosis in many cancers. Through increased methylation of epigenetic and non-epigenetic targets, the aberrant activity of PRMT5 has been associated with many pro-tumourigenic cellular changes such as, increased levels of protein synthesis, dysregulation of cell cycle, cellular adaptation to hypoxic conditions, and suppression of normal cell death pathways. Genetic studies suggest that suppression of PRMT5 activity can reverse many of these pro-tumourigenic effects making PRMT5 an attractive drug discovery target. We screened a library of 350,000 lead-like compounds with a biochemical assay measuring the methylation of a histone H4 peptide by the recombinant human PRMT5/MEP50 complex. Biochemical and biophysical profiling of the inhibitory compounds indicated that several distinct binding modes were exhibited by the different chemical scaffolds. Inhibitors displayed competitive, noncompetitive or uncompetitive interactions with respect to S-adenosyl methionine and the peptide substrate. Medicinal chemistry developed several classes of potent, highly selective inhibitors of PRMT5 methyltransferase activity from the hit set. The optimised tool compound, CTx-034, is a potent inhibitor of PRMT5 methyl transferase activity (KD = 2 nM), which is highly selective (>100-fold) versus a panel of 18 methyltransferases (including 6 PRMT family members), 11 lysine demethylases, and 15 safety related targets (GPCRs, ion channels, enzymes). Treatment of cancer cell lines with CTx-034 reduces cellular levels of symmetrically dimethylated H4 Arginine 3 (H4R3me2s), in a dose dependent manner (IC50 = 4 nM) to levels undetectable by Western blot. Furthermore, within this chemical series the ability of compounds to reduce cellular levels of H4R3me2s closely correlates with PRMT5 inhibitory activity supporting PRMT5 as the cellular target of these compounds, and suggesting that PRMT5 is the major writer of this histone mark in many cancer cell lines. CTx-034 also inhibits the symmetric dimethylation of arginine on other histone and non-histone cellular substrates of PRMT5, including H3R2me2s and SmD1. Conversely, CTx-034 treatment does not reduce levels of H4R3 asymmetric dimethylation, a histone mark catalysed by PRMT1. Finally, CTx-034 has good oral bioavailability and pharmacokinetic properties in rodents and twice-daily dosing (10 - 100 mg/kg) over 10-14 days produces a dose dependent reduction of the H4R3me2s mark in bone marrow cells and peripheral white blood cells. This treatment is well tolerated by the mice, with no significant reduction in body weight or changes in haematological parameters observed. CTx-034 provides an excellent tool compound for cellular and in vivo proof of concept studies. Citation Format: Hendrik Falk, Richard C. Foitzik, Elizabeth Allan, Melanie deSilva, Hong Yang, Ylva E. Bozikis, Marica Nikac, Scott R. Walker, Michelle A. Camerino, Ben J. Morrow, Alexandra E. Stupple, Rachel Lagiakos, Jo-Anne Pinson, Romina Lessene, Wilhelmus JA Kersten, Danny G. Ganame, Ian P. Holmes, Gill E. Lunniss, Matthew Chung, Stefan J. Hermans, Michael W. Parker, Alison Thistlethwaite, Karen White, Susan A. Charman, Brendon J. Monahan, Patricia Pilling, Julian Grusovin, Thomas S. Peat, Stefan Sonderegger, Emma Toulmin, Stephen M. Jane, David J. Curtis, Paul A. Stupple, Ian P. Street. PRMT5 inhibitors as novel treatment for cancers. [abstract]. In: Proceedings of the 106th Annual Meeting of the American Association for Cancer Research; 2015 Apr 18-22; Philadelphia, PA. Philadelphia (PA): AACR; Cancer Res 2015;75(15 Suppl):Abstract nr 5371. doi:10.1158/1538-7445.AM2015-5371

Abstract 4029: BL-011256 is a novel VEGFR3 selective inhibitor, which suppresses tumor lymphatics and lymph node metastasis in an animal model of melanoma

Proceedings: AACR Annual Meeting 2014; April 5-9, 2014; San Diego, CA The role of VEGFR3 in lymphangiogenesis has been well established. Targeting VEGFR3 has been shown to curtail tumor progression mediated via lymphatic dissemination. More recently VEGFR3 was shown to play an important role in the mediation of tumor-induced immune cell tolerance. We have identified BL-011256, a novel inhibitor of VEGFR3 that exhibits 17-fold selectivity over VEGFR2 and a narrow tyrosine kinase inhibition spectrum. A 7-day b.i.d repeat oral dose study showed that BL-011256 is well tolerated in mice. Mouse plasma exposure experiments demonstrated that BL-011256 attains free drug plasma concentration levels that exceed the concentration required for IC50 activity on VEGFR3 in vitro but are considerably lower than the in vitro IC50 required for activity on VEGFR2. In the B16F10 mouse melanoma model, animals bearing melanoma tumors displayed considerably attenuated signs of tumor progression when treated with BL-011256. BL-011256 caused a 70% reduction in primary lesion growth and a 50% reduction in metastasis to the draining lymph node. Furthermore, BL-011256 was active in reducing the number of satellite in-transit metastases. Immunohistochemical whole mount analyses on ears with primary tumor lesions derived from BL-011256 treated and vehicle-treated mice using Lyve-1 for the identification of lymphatic vessels and CD31 for the identification of blood vessels was conducted. Tumors in vehicle-treated mice displayed a peri-tumoral area densely populated by lymphatic vessels. In contrast, tumors derived from BL-011256 treated mice were devoid of peri-tumoral lymphatic vessels. Notably, both vehicle-treated and BL-011256-treated animals displayed similar staining for peritumoral blood vessels, suggesting no effect on blood vessels (this is consistent with no activity on VEGFR2). Furthermore, PK sampling during the last day of dosing in a 14-day dosing schedule demonstrated that there is no compound accumulation during the repeat dosing schedule utilised in the B16F10 tumour efficacy experiment. In conclusion BL-011256 has been identified as a selective inhibitor of VEGFR3 that supresses both primary tumor growth and lymph node metastasis. Citation Format: Annabell Leske, Richard Foitzik, Donna Beaumont, John Bentley, Ylva Bergman, Chloe Brown, Michelle Camerino, Susan Charman, Neil Choi, Melanie De Silva, Matthew Chung, Hendrik Falk, Danny Ganame, Alison Gregg, Julian Grusovin, Andrew Harvey, Catherine Hemley, Ian Holmes, Belinda Huff, Daniel Inglis, Wilhelmus Kersten, Tina Lavranos, Romina Lessene, Gillian Lunniss, Brendon Monahan, Benjamin Morrow, Marica Nikac, George Nikolakopoulos, Dharam Paul, Tom Peat, Justin Ripper, Michaela Scherer, Paul Stupple, Karen White, Ian Street, Gabriel Kremmidiotis. BL-011256 is a novel VEGFR3 selective inhibitor, which suppresses tumor lymphatics and lymph node metastasis in an animal model of melanoma. [abstract]. In: Proceedings of the 105th Annual Meeting of the American Association for Cancer Research; 2014 Apr 5-9; San Diego, CA. Philadelphia (PA): AACR; Cancer Res 2014;74(19 Suppl):Abstract nr 4029. doi:10.1158/1538-7445.AM2014-4029