Preclinical Characterization of AZD9574, a Blood-Brain Barrier Penetrant Inhibitor of PARP1

PURPOSE

We evaluated the properties and activity of AZD9574, a blood-brain barrier (BBB) penetrant selective inhibitor of PARP1, and assessed its efficacy and safety alone and in combination with temozolomide (TMZ) in preclinical models.

EXPERIMENTAL DESIGN

AZD9574 was interrogated in vitro for selectivity, PARylation inhibition, PARP-DNA trapping, the ability to cross the BBB, and the potential to inhibit cancer cell proliferation. In vivo efficacy was determined using subcutaneous as well as intracranial mouse xenograft models. Mouse, rat, and monkey were used to assess AZD9574 BBB penetration and rat models were used to evaluate potential hematotoxicity for AZD9574 monotherapy and the TMZ combination.

RESULTS

AZD9574 demonstrated PARP1-selectivity in fluorescence anisotropy, PARylation, and PARP-DNA trapping assays and in vivo experiments demonstrated BBB penetration. AZD9574 showed potent single agent efficacy in preclinical models with homologous recombination repair deficiency in vitro and in vivo. In an O6-methylguanine-DNA methyltransferase (MGMT)-methylated orthotopic glioma model, AZD9574 in combination with TMZ was superior in extending the survival of tumor-bearing mice compared with TMZ alone.

CONCLUSIONS

The combination of three key features-PARP1 selectivity, PARP1 trapping profile, and high central nervous system penetration in a single molecule-supports the development of AZD9574 as the best-in-class PARP inhibitor for the treatment of primary and secondary brain tumors. As documented by in vitro and in vivo studies, AZD9574 shows robust anticancer efficacy as a single agent as well as in combination with TMZ. AZD9574 is currently in a phase I trial (NCT05417594). See related commentary by Lynce and Lin, p. 1217.

Optimization of a series of novel, potent and selective Macrocyclic SYK inhibitors

Spleen tyrosine kinase (SYK) is a non-receptor cytoplasmic kinase. Due to its pivotal role in B cell receptor and Fc-receptor signalling, inhibition of SYK has been a target of interest in a variety of diseases. Herein, we report the use of structure-based drug design to discover a series of potent macrocyclic inhibitors of SYK, with excellent kinome selectivity and in vitro metabolic stability. We were able to remove hERG inhibition through the optimization of physical properties, and utilized a pro-drug strategy to address permeability challenges.

Industry Perspective on the Pharmacokinetic and ADME Characterization of Heterobifunctional Protein Degraders

Targeted protein degraders (TPDs), specifically the bifunctional protein degraders discussed in this manuscript, consist of two linked ligands for a protein of interest and an E3 ligase, resulting in molecules which largely violate accepted physicochemical limits (e.g. Lipinski's Rule of 5) for oral bioavailability. In 2021, the IQ Consortium Degrader DMPK/ADME Working Group undertook a survey of eighteen IQ member and non-member companies working on degraders to understand whether the characterization and optimization of these molecules were different from any other beyond the Rule of 5 (bRo5) compounds. Additionally, the working group sought to identify PK/ADME areas in need of further evaluation and where additional tools could aid in more rapid advancement of TPDs to patients. The survey revealed that although TPDs reside in a challenging bRo5 physicochemical space, most respondents focus their efforts on oral delivery. Physicochemical properties required for oral bioavailability were generally consistent across the companies surveyed. Many of the member companies used modified assays to address challenging degrader properties (e.g. solubility, non-specific binding), but only half indicated that they modified their drug discovery workflows. The survey also suggested the need for further scientific investigation in the areas of CNS penetration, active transport, renal elimination, lymphatic absorption, in silico/machine learning, and human pharmacokinetic prediction. Based on the survey results, the Degrader DMPK/ADME Working Group concludes that TPD evaluation does not fundamentally differ from other bRo5 compounds, but requires some modification compared to traditional small molecules and proposes a generic workflow for PK/ADME evaluation of bifunctional TPDs. Significance Statement Based on an industry survey, this article provides an understanding of the current state of ADME science pertaining to characterizing and optimizing targeted protein degraders, specifically bifunctional protein degraders, based upon the responses provided by 18 IQ consortium members and non-members developing targeted protein degraders to treat disease. Additionally, this article puts into context the differences / similarities in methods and strategies utilized for heterobifunctional protein degraders compared to other bRo5 molecules and those used for conventional small molecule drugs.

DDDR-01. AZD9574 IS A NOVEL, BRAIN PENETRANT PARP-1 SELECTIVE INHIBITOR WITH ACTIVITY IN AN INTRACRANIAL XENOGRAFT MODEL OF TRIPLE NEGATIVE BREAST CARCINOMA WITH HOMOLOGOUS RECOMBINATION REPAIR DEFICIENCY

The Poly (ADP-ribose) polymerase (PARP) family has numerous essential functions in cellular processes such as transcription, chromatin remodelling, DNA damage response and repair as well as apoptosis. PARP inhibition blocks base excision repair and results in conversion of SSBs to DNA double-strand break (DSBs), the most deleterious form of DNA damage. DSBs can be repaired by homologous recombination repair (HRR) or non-homologous end joining (NHEJ). The physiological importance of HRR is underscored by the observation of genomic instability in HRR-deficient (HRD+) cells and, importantly, the association of cancer predisposition and developmental defects with mutations in HRR genes. PARP1 and PARP2 are required for SSB repair, while PARP1 is also involved in the repair of DNA double-strand breaks (DSBs) and replication fork damage. AZD9574 is a novel brain penetrant PARP1 inhibitor that acts by selectively inhibiting and trapping PARP1 at the sites of SSBs. While AZD9574 inhibited PARP1 enzymatic activity in all tested cell lines irrespective of the HRR status (IC50 range between 0.3 – 2 nM), colony formation assay in isogenic cell lines pairs confirmed higher potency and selectivity towards HRD+ models. In vivo, AZD9574 demonstrated dose-dependent efficacy in a BRCA1 mutant MDA-MB-436 subcutaneous xenograft model. Anti-tumour effects of AZD9574 were manifested by significant growth regressions that were durable after treatment withdrawal. An intracranial xenograft model of breast cancer brain metastases was developed to assess the efficacy of AZD9574 in the context of blood-brain barrier penetrance. Treatment of animals with established intracranial lesions showed sustained tumour growth suppression resulting in a significantly extended survival of tumour-bearing mice. Collectively, we believe that our data support the development of AZD9574 as a potential therapy for patients with HRD+ breast cancer whose disease has spread to the brain.This abstract was previously presented at AACR 2022 (Hamerlik et al, AACR 2022, Abs #3880)

Preclinical Characterization of AZD5305, A Next-Generation, Highly Selective PARP1 Inhibitor and Trapper

PURPOSE

We hypothesized that inhibition and trapping of PARP1 alone would be sufficient to achieve antitumor activity. In particular, we aimed to achieve selectivity over PARP2, which has been shown to play a role in the survival of hematopoietic/stem progenitor cells in animal models. We developed AZD5305 with the aim of achieving improved clinical efficacy and wider therapeutic window. This next-generation PARP inhibitor (PARPi) could provide a paradigm shift in clinical outcomes achieved by first-generation PARPi, particularly in combination.

EXPERIMENTAL DESIGN

AZD5305 was tested in vitro for PARylation inhibition, PARP-DNA trapping, and antiproliferative abilities. In vivo efficacy was determined in mouse xenograft and PDX models. The potential for hematologic toxicity was evaluated in rat models, as monotherapy and combination.

RESULTS

AZD5305 is a highly potent and selective inhibitor of PARP1 with 500-fold selectivity for PARP1 over PARP2. AZD5305 inhibits growth in cells with deficiencies in DNA repair, with minimal/no effects in other cells. Unlike first-generation PARPi, AZD5305 has minimal effects on hematologic parameters in a rat pre-clinical model at predicted clinically efficacious exposures. Animal models treated with AZD5305 at doses ≥0.1 mg/kg once daily achieved greater depth of tumor regression compared to olaparib 100 mg/kg once daily, and longer duration of response.

CONCLUSIONS

AZD5305 potently and selectively inhibits PARP1 resulting in excellent antiproliferative activity and unprecedented selectivity for DNA repair deficient versus proficient cells. These data confirm the hypothesis that targeting only PARP1 can retain the therapeutic benefit of nonselective PARPi, while reducing potential for hematotoxicity. AZD5305 is currently in phase I trials (NCT04644068).

ADME and DMPK considerations for the discovery and development of antibody drug conjugates (ADCs)

 The therapeutic concept of antibody drug conjugates (ADCs) is to selectively target tumour cells with small molecule cytotoxic drugs to maximise cell kill benefit and minimise healthy tissue toxicity.An ADC generally consists of an antibody that targets a protein on the surface of tumour cells chemically linked to a warhead small molecule cytotoxic drug.To deliver the warhead to the tumour cell, the antibody must bind to the target protein and in general be internalised into the cell. Following internalisation, the cytotoxic agent can be released in the endosomal or lysosomal compartment (via different mechanisms). Diffusion or transport out of the endosome or lysosome allows the cytotoxic drug to express its cell-killing pharmacology. Alternatively, some ADCs (e.g. EDB-ADCs) rely on extracellular cleavage releasing membrane permeable warheads.One potentially important aspect of the ADC mechanism is the 'bystander effect' whereby the cytotoxic drug released in the targeted cell can diffuse out of that cell and into other (non-target expressing) tumour cells to exert its cytotoxic effect. This is important as solid tumours tend to be heterogeneous and not all cells in a tumour will express the targeted protein.The combination of large and small molecule aspects in an ADC poses significant challenges to the disposition scientist in describing the ADME properties of the entire molecule.This article will review the ADC landscape and the ADME properties of successful ADCs, with the aim of outlining best practice and providing a perspective of how the field can further facilitate the discovery and development of these important therapeutic modalities.

Abstract 1765: Discovery and first disclosure of AZD8205, a B7-H4-targeted antibody-drug conjugate utilizing a novel topoisomerase I linker-warhead

The cell-surface glycoprotein B7-H4 is overexpressed in a range of solid tumors including breast cancer, ovarian serous carcinoma, endometrial carcinoma, and cholangiocarcinoma, yet has limited expression in normal tissue, making it an attractive target for an antibody-drug conjugate (ADC). This presentation describes for the first time the development of AZD8205, a B7-H4 targeted ADC incorporating a novel topoisomerase 1 inhibitor (TOP1i) linker-warhead, AZ’0133 which was designed to exploit the full potential of B7-H4 as an ADC target. Initially, we investigated a series of more than 35 TOP1i compounds as warheads and achieved activity in a clinically relevant nM range. We further optimized the conjugation site and chemistry to reduce the potential for aggregation while maintaining potency, overcoming major synthetic challenges to deliver a robust synthetic route amenable to scale-up. Finally, with a series of optimized linker-warheads, we explored the impact of linker-warhead design on ADC hydrophobicity, stability, efficacy, pharmacokinetics and tolerability culminating in the development of AZD8205. The primary mechanism of action of AZD8205 is intracellular delivery of the TOP1i warhead to B7-H4 positive cells, leading to DNA damage and apoptotic cell death. AZD8205 drove bystander killing of target negative cells in mixed cultures in vitro, which is further supported by robust antitumor activity observed in in vivo studies with patient-derived xenograft (PDX) tumors with heterogeneous target expression, representing multiple tumor indications. In a study of 26 human TNBC PDX tumors, a single IV administration of 3.5 mg/kg AZD8205 provided an overall response rate of 69% (tumor regression of 30% or greater from baseline) and complete responses observed in 9/26 (36%) of models. To understand the biology underlying antitumor response, we conducted a multiparametric analysis including genomics, proteomics and computational pathology and found that deeper antitumor activity was observed in models with elevated B7-H4 expression as well as in models with defects in DNA damage repair (DDR). To further exploit the DNA damage elicited by the TOP1i warhead, we examined combinations of AZD8205 with small molecules, including a novel PARP1 selective inhibitor, in a BRCA wild type MDA-MB-468 model. These data suggest that AZD8205 is a promising therapeutic candidate for the treatment of B7-H4 positive solid tumors. A first in human phase 1 study in patients with advanced solid tumors is currently ongoing (NCT05123482).

Citation Format: Krista Kinneer, Niall J. Dickinson, Luke Masterson, Thais Cailleau, Ian Hutchinson, Balakumar Vijayakrishnan, Nazzareno Dimasi, R. James Christie, Mary McFarlane, Kathryn Ball, Arthur Lewis, Sofia Koch, Lee Brown, Yue Huang, Anton I. Rosenbaum, Jiaqi Yuan, Si Mou, Noel R. Monks, Jon Chesebrough, Ravinder Tammali, Judith Anderton, Darrin Sabol, Frances Anne Tosto, Philipp Wortmann, Zachary A. Cooper, Pauline Ryan, John Hood, Carlos Fernandez Teruel, Carlos Serra Traynor, Andy Pike, Michael Davies, Elisabetta Leo, Kimberly Cook, Nadia Luheshi, Philip W. Howard, Puja Sapra. Discovery and first disclosure of AZD8205, a B7-H4-targeted antibody-drug conjugate utilizing a novel topoisomerase I linker-warhead [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2022; 2022 Apr 8-13. Philadelphia (PA): AACR; Cancer Res 2022;82(12_Suppl):Abstract nr 1765.

Abstract 5977: Discovery and preclinical validation of [11C]AZ3391: A first in class blood-brain barrier permeable, subtype selective PARP-1 PET radioligand

Positron emission tomography (PET) is a molecular imaging technique used to study the distribution of radiolabeled tracer molecules in vivo in a non-invasive fashion. We here report the discovery and preclinical validation of a novel PET tracer for PARP1. Its exquisite selectivity and high contrast in vivo opens up unique opportunities for exploring target engagement and relationships between drug exposure in plasma and PARP1 occupancy during clinical development of PARP1 inhibitors.

AZ3391 was identified as a PET radioligand candidate from our medicinal chemistry program investigating novel PARP1 selective inhibitors and radiolabeled with carbon-11 (t1/2=20.4 min) for a series of in vitro and in vivo imaging experiments.

Using in vitro autoradiography, dense binding of [11C]AZ3391 was observed in tissues known to be rich in PARP1 (eg tumour xenograft; NHP and human brain cerebellum). [11C]AZ3391 binding was completely abolished by the inclusion of a high concentration of Olaparib or AZD5305 in the incubate, thus demonstrating specific binding to PARP1 in vitro.

Following intravenous injection of [11C]AZ3391 in non-human primates, high binding was observed in organs known to express PARP1, eg brain, spleen and bone marrow. The radioactivity in these organs could be blocked in a dose-dependent manner after pre-treatment with increasing doses of AZD9574 (up to 0.05 mg/kg), thus demonstrating specific binding to PARP1 in vivo.

This set of preclinical data supports further development of [11C]AZ3391 as a tool to assess drug induced PARP1 engagement in patients.

Citation Format: Peter Johnström, Jeffrey Johannes, Andy Pike, Zsolt Cselényi, Magnus Schou. Discovery and preclinical validation of [11C]AZ3391: A first in class blood-brain barrier permeable, subtype selective PARP-1 PET radioligand [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2022; 2022 Apr 8-13. Philadelphia (PA): AACR; Cancer Res 2022;82(12_Suppl):Abstract nr 5977.

Abstract 6302: Structure-based and property-based drug design of AZD9574, a CNS penetrant PARP1 selective inhibitor and trapper

PARP inhibitors exploit defects in DNA repair pathways to selectively target cancerous cells via PARP1 catalytic inhibition and PARP1 trapping onto the DNA. All known clinical PARP1 inhibitors bind at the same site at the catalytic center of the enzyme. However, despite this resemblance they show immensely different outcomes in terms of response rate in the clinic due to their varying degree of PARP trapping ability. Moreover, the first-generation PARP inhibitors were not optimized for selectivity across the PARP family potentially driving undesirable side effects, including intestinal toxicity from tankyrase inhibition or hematological toxicity from PARP2 inhibition. There has been strong rationale for the use of PARP inhibitors in neuro-oncology. However, the first-generation PARP inhibitors have limited CNS distribution as these drugs were not designed for brain penetration. Recently AstraZeneca has reported the discovery of AZD5305, a next generation PARP1 selective inhibitor and PARP1-DNA trapper which was not designed with a CNS penetrant profile. Given the unmet need of a brain penetrant PARP1 inhibitor, we set out to identify a highly potent and selective PARP1 inhibitor and trapper with CNS profile. In our next generation PARP1 inhibitor, we sought to retain the profile of AZD5305 and lower the efflux for CNS penetration. Despite the challenge of narrow SAR, we successfully used the structure- and property-based design approach to identify a brain penetrant PARP1 inhibitor and PARP1-DNA trapper. We used multiple medicinal chemistry maneuvers such as masking the hydrogen bond donors and core modifications to lower the efflux in order to achieve brain penetration. Further optimization of the nicotinamide mimetic core for potency and metabolic stability led us to the discovery of AZD9574.AZD9574 shows improved selectivity for PARP1 over PARP2 vs AZD5305 and retains its excellent selectivity over other PARP family members. It has low efflux in Caco2, MDCK-MDR1, and MDCK-MDR1-BCRP permeability assays and it also showed CNS penetration in rat and cynomolgus monkey. AZD9574 has excellent secondary pharmacology and acceptable physicochemical properties and good PK in preclinical species.In vitro, AZD9574 selectively inhibits the growth of BRCAm cell lines. Importantly, AZD9574 showed efficacy in an intracranial BRCA1m MDA-MB-436 xenograft model at doses of 3, 10 and 30 mg/kg QD, significantly extending the survival of tumor-bearing mice compared to vehicle control arm.In summary, AZD9574 is a next generation selective PARP1 inhibitor and trapper with CNS penetration. This profile makes it an ideal candidate for treating CNS malignancies or brain metastases that have a dependence on PARP inhibition either as single agent or in combination with other therapies.

Citation Format: Avipsa Ghosh, Sudhir M. Hande, Amber Balazs, Derek Barratt, Sabina Cosulich, Barry Davies, Sébastien Degorce, Kevin Embrey, Sonja Gill, Anders Gunnarsson, Giuditta Illuzzi, Peter Johnström, Jordan Lane, Carrie Larner, Rachel Lawrence, Elisabetta Leo, Andrew Madin, Elizabeth Martin, Lisa McWilliams, Lenka O’Connor, Mark O’Connor, Jonathan Orme, Fiona Pachl, Martin Packer, Andy Pike, Philip Rawlins, Marianne Schimpl, Magnus Schou, Anna Staniszewska, Wenzhan Yang, James Yates, Andrew Zhang, XiaoLa Zheng, Stephen Fawell, Petra Hamerlik, Jeffrey Johannes. Structure-based and property-based drug design of AZD9574, a CNS penetrant PARP1 selective inhibitor and trapper [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2022; 2022 Apr 8-13. Philadelphia (PA): AACR; Cancer Res 2022;82(12_Suppl):Abstract nr 6302.

Abstract 5076: Evaluation of the CNS penetration of a next generation PARP inhibitor, AZD9574, in cynomolgus monkey using positron emission tomography

The current clinically approved PARP inhibitors have limited subtype selectivity and are to some degree restricted in their ability to penetrate the central nervous system (CNS) due to efflux transporters, potentially limiting their efficacy in treating metastatic disease or primary tumors in the brain. The current study evaluated the potential of AZD9574, a next generation, PARP1 selective inhibitor/trapper, to penetrate the CNS in cynomolgus monkey, and its occupancy of the PARP1 enzyme, using positron emission tomography (PET). In vitro bidirectional efflux assay data suggested AZD9574 showed minimal substrate potential compared to the clinically approved PARP inhibitors. This was reflected in an increased ratio of unbound brain to unbound plasma concentration (Kpuu) in the rat of ~0.31. Therefore AZD9574 was taken forward into cynomolgus monkey PET studies. Firstly, the Kpuu was determined following dosing of [11C]AZD9574, co-administered with unlabeled drug to minimize the impact of specific binding. The high specific signal observed lead to the development of [11C]AZ3391, a PARP1 selective, CNS penetrant PET tracer, which was subsequently used to directly assess the PARP1 target engagement of AZD9574 in the brain. AZD9574 was found to show a Kpuu in cynomolgus monkeys of 0.79, close to unity with unbound plasma concentrations suggesting minimal CNS restriction. Furthermore, an i.v. infusion dose response study with AZD9574, conducted to examine its ability to block target occupancy by the PET tracer [11C]AZ3391, demonstrated a reduction in [11C]AZ3391 accumulation in whole brain. The resulting calculated occupancy of AZD9574 ranged from 17% for the lowest dose (0.003 mg/kg) to 95% for the highest dose tested (0.05 mg/kg). Comparable reduction in occupancy was seen for peripheral tissue, such as bone marrow, supporting the conclusion that AZD9574 shows minimal CNS restriction. These data show that AZD9574 is the first PARP inhibitor to reach the clinic which combines PARP1 selectivity, trapping and high CNS penetration in a single molecule and supports its development as a potential therapy for the treatment of metastatic disease and primary brain tumors.

Citation Format: Andy Pike, Amber Balazs, Zsolt Cselényi, Sébastien L. Degorce, Avipsa Ghosh, Sudhir M. Hande, Jeffrey Johannes, Peter Johnström, Martin J. Packer, Magnus Schou, XiaoLan Zheng. Evaluation of the CNS penetration of a next generation PARP inhibitor, AZD9574, in cynomolgus monkey using positron emission tomography [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2022; 2022 Apr 8-13. Philadelphia (PA): AACR; Cancer Res 2022;82(12_Suppl):Abstract nr 5076.

Abstract 1270: The novel PARP1-selective inhibitor, AZD5305, is efficacious as monotherapy and in combination with standard of care chemotherapy in the in vivo preclinical models

Poly (ADP-ribose) polymerase inhibitors (PARPi) have shown efficacy in homologous recombination deficient (HRD) tumours, such as those with BRCA mutations (BRCAm). In this setting PARPi treatments lead to accumulation of DNA damage and cancer cell death. PARPi currently in clinical use inhibit both PARP1 and PARP2, as well as other members of the PARP family. Here, we report for the first time in vivo profiling of AZD5305, a potent and highly selective PARP1 inhibitor and trapper, currently in Ph1 clinical trials.

Dose response efficacy of AZD5305 was evaluated in the BRCA1m triple-negative breast cancer (TNBC) xenograft model MDA-MB-436. AZD5305 dosed at 0.1mg/kg QD or higher for 35 days delivered about 90% regression, compared with 83% regression caused by treatment with 100mg/kg QD olaparib. Anti-tumour effects of AZD5305 continued after cessation of treatment and complete responses were achieved which were sustained for the whole duration of the study, over 100 days after treatment withdrawal, in contrast to the olaparib-treated group where regrowth of tumours was observed from day 63 after treatment withdrawal. Investigation of the PK/PD/efficacy relationship in MDA-MB-436 showed that maximum efficacy of AZD5305 was achieved when unbound plasma concentrations were maintained above the IC95 estimated from an in vitro DLD-1 BRCA2-/- cell growth assay. Similar results were obtained in a BRCA1m patient-derived explant (PDX) model, HBCx-17.

Anti-tumour efficacy of AZD5305 was also tested in the DLD-1 BRCA2-/- and wild-type (WT) isogenic xenograft models. In the DLD-1 BRCA2-/- model, AZD5305 dosed at 10mg/kg QD and 1mg/kg QD delivered 78% and 63% tumour regression, respectively. AZD5305 at 0.1mg/kg QD resulted in responses similar to those observed in the olaparib 100mg/kg QD group (40-54% tumour growth inhibition, TGI). As expected, AZD5305 and olaparib showed no anti-tumour efficacy in the DLD-1 WT tumour model.

Due to improved PARP1 selectivity, AZD5305 has the potential to show improved efficacy and tolerability in combination with standard of care chemotherapy when compared to non-selective PARPi. Hence, we investigated the anti-tumour effects of AZD5305 in combination with carboplatin or paclitaxel in a BRCA1m TNBC xenograft, SUM149PT, and BRCA WT TNBC PDX model, HBCx-9. In both models, combination of AZD5305 with carboplatin was well tolerated and demonstrated clear benefit compared to each monotherapy treatment. The effects of adjusted dosing and scheduling of the combination on the anti-tumour efficacy will be presented.

Citation Format: Anna D. Staniszewska, James W. Yates JWT, Andy Pike, Christine Fazenbaker, Kimberly Cook, Emily Bosco, Aaron Smith, Joanne Wilson, Elisabetta Leo. The novel PARP1-selective inhibitor, AZD5305, is efficacious as monotherapy and in combination with standard of care chemotherapy in the in vivo preclinical models [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2021; 2021 Apr 10-15 and May 17-21. Philadelphia (PA): AACR; Cancer Res 2021;81(13_Suppl):Abstract nr 1270.

Abstract 1374: The novel PARP1-selective inhibitor AZD5305 has reduced hematological toxicity when compared to PARP1/2 inhibitors in pre-clinical models

Current clinical poly (ADP-ribose) polymerase (PARP) inhibitors target both PARP1 and PARP2 and they all cause clinical cytopenias with varying severity. Understanding the mechanism underlying the hematological toxicity of these agents is key for the rational design of a best-in-class molecule with greater therapeutic potential, both as monotherapy and in combination with chemotherapy.

We validated the rat as a physiologically competent translational model to investigate PARP inhibitor-driven hematological toxicity. Here we demonstrate that in comparison with a representative PARP1/2 inhibitor, olaparib, the novel highly potent PARP1-selective inhibitor and trapper, AZD5305, does not cause hematological toxicity as a monotherapy in pre-clinical rat models at predicted clinically efficacious exposures. Thus, monotherapy toxicity of PARP1/2 inhibitors likely depends on PARP2 inhibition.

Next, we proceeded to investigate whether PARP1-selective inhibition would be better tolerated in chemotherapy combinations than PARP1/2 inhibition. We performed a rat in vivo study comparing daily olaparib or daily AZD5305 at matched exposures in combination with one cycle of intravenous carboplatin for 14 days. We show that olaparib and PARP1-selective AZD5305 cause comparable exacerbation of carboplatin-induced peripheral blood effects implicating PARP1 inhibition in combination-driven hematological toxicity. Importantly however, AZD5305+carboplatin showed improved hematological tolerability over olaparib+carboplatin because peripheral reticulocytes and bone marrow erythroid precursor cells recover in the presence of continuous AZD5305 but not in the presence of continuous olaparib. Importantly, this differentiation was maintained in a subsequent rat in vivo study, where daily olaparib or daily AZD5305 were combined with two three-weekly cycles of a higher dose of carboplatin to more closely mimic clinical protocol. AZD5305+carboplatin was associated with a more rapid recovery of reticulocytes, red blood cells and hemoglobin following both cycles of carboplatin. In contrast, olaparib+carboplatin was associated with a slower recovery resulting in a more sustained reduction in red cells and hemoglobin during both the first and second cycle of carboplatin.

Thus, in rodents the novel potent PARP1-selective inhibitor AZD5305 has improved hematological tolerability over dual PARP1/2 inhibitors, both as a monotherapy and in carboplatin combinations.

Citation Format: Sonja J. Gill, Ruth Macdonald, Carmen Pin, Rob Collins, Emilyanne Leonard, Gareth Maglennon, Andy Pike, Peter Cotton, Glen Hawthorne, Jordan Pugh, Rebecca Sargeant, Daniel Sutton, James Atkinson, Stewart Jones, Sarah Chinery, Mark Anderton. The novel PARP1-selective inhibitor AZD5305 has reduced hematological toxicity when compared to PARP1/2 inhibitors in pre-clinical models [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2021; 2021 Apr 10-15 and May 17-21. Philadelphia (PA): AACR; Cancer Res 2021;81(13_Suppl):Abstract nr 1374.

Abstract 296: Structure-based and property-based drug design of AZD5305, a highly selective PARP1 inhibitor and trapper

Since the approval of olaparib in 2014 for BRCA mutated (BRCAm) ovarian cancer, many PARP inhibitors have been developed and have seen widespread success. However, as a class, these drugs are not without adverse events which have limited their ability to be combined with chemotherapy. Most first generation PARP inhibitors were developed and optimized before the concept of PARP1-DNA trapping was discovered as the mechanism by which PARP inhibitors exert their synthetic lethal effects on BRCAm cells. Moreover, the first generation PARP inhibitors were not optimized for selectivity across the PARP family potentially driving undesirable side effects, including intestinal toxicity from tankyrase inhibition or hematological toxicity from PARP2 inhibition. With this in mind, we set out to discover a best-in-class, second generation PARP inhibitor that was highly selective for PARP1 over the other 16 members of the PARP family, as well as a highly potent PARP1-DNA trapper.

PARP1 and PARP2 have a highly similar amino acid sequence, and most of the residues around the nicotinamide binding site are identical. However, there are some key residue differences in the helical domain which serves a regulator of the nicotinamide binding pocket. The publication of NMS-P118 in 2015 by Nerviano Medical Sciences showed that a highly selective PARP1 inhibitor could be found. This work inspired us to screen an extensive list of previously reported PARP inhibitors for selectivity against PARP2 and we found that FR257516 met the selectivity criteria as previously reported, but lacked the ability to trap PARP1 to DNA and hence lacked any activity in a cell colony formation assay in DLD-1 BRCA2-/- cells. Using parallel chemistry to generate diverse analogs, X-ray crystallography to enable structure-based design, and exploration of multiple nicotinamide mimetic cores, we were able to generate lead compound AZ4554, which was a PARP1 selective PARP1-DNA trapper with potent activity in BRCAm cells. Using concepts of property-based drug design, we were able to optimize lead compound AZ4554 into candidate drug AZD5305, making key improvements in secondary pharmacology, including reducing hERG activity, and intrinsic clearance in human microsomes through the introduction of polar atoms to lower logD without compromising permeability or oral bioavailability.

AZD5305 is a highly selective binder of PARP1 over PARP2 and other PARP enzymes by fluorescence polarization, surface plasmon resonance, and single molecule spectroscopy. It is highly potent against DLD-1 BRCA2-/- cells, while sparing isogenic BRCA WT cells. The secondary pharmacology of AZD5305 is remarkably clean, with hERG activity >40 µM. AZD5305 has a very favorable pre-clinical PK profile, low predicted human dose, and has shown efficacy in an MDA-MB-436 mouse xenograft model.

Citation Format: Sudhir Hande, Amber Balazs, Sébastien L. Degorce, Kevin Embrey, Avipsa Ghosh, Sonja J. Gill, Anders Gunnarsson, Giuditta Illuzzi, Jordan Lane, Carrie Larner, Elisabetta Leo, Andrew Madin, Lisa McWilliams, Mark J. O'Connor, Jonathan Orme, Fiona Pachl, Martin Packer, Andy Pike, Philip Rawlins, Marianne Schimpl, Anna D. Staniszewska, Andrew Zhang, Xiaolan Zheng, Jeffrey W. Johannes. Structure-based and property-based drug design of AZD5305, a highly selective PARP1 inhibitor and trapper [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2021; 2021 Apr 10-15 and May 17-21. Philadelphia (PA): AACR; Cancer Res 2021;81(13_Suppl):Abstract nr 296.

Impact of Interindividual Differences in Plasma Fraction Unbound on the Pharmacokinetics of a Novel Syk Kinase Inhibitor in Beagle Dogs

Inconsistencies in pharmacokinetic parameters between individual animals in preclinical studies are a common occurrence. Often such differences between animals are simply accepted as experimental variability rather than as indications of specific differences in animal phenotype that could lead to a different interpretation of the data. The fraction unbound in plasma is one factor influencing pharmacokinetic parameters and is typically determined using pooled plasma from multiple animals, making the assumption that there is limited population variance. However, this assumption is not often tested and may not hold true if there are polymorphisms affecting binding or variation in the concentrations of individual plasma proteins that could give rise to different fraction unbound phenotypes in individual animals. During profiling of a novel Syk inhibitor, AZ8399, striking interindividual differences in total plasma clearance and volume of distribution were observed between dogs consistent with differences in fraction unbound between animals. Determination of the fraction unbound showed a ∼5-fold difference in fraction unbound between the animals in the study. Broader analysis of individual dogs across a colony demonstrated a correlation between individual animal fraction unbound with total plasma clearance and volume of distribution. The concentrations of the common drug-binding proteins albumin and α1-acid glycoprotein in plasma were determined, and α1-acid glycoprotein levels were found to correlate with fraction unbound. Finally, single-nucleotide polymorphisms were identified at c.502 and c.522 of exon 5 of the dog α1-acid glycoprotein gene that may be correlated to the α1-acid glycoprotein concentration phenotype observed. SIGNIFICANCE STATEMENT: The current work demonstrates the potential for significant interindividual differences in plasma fraction unbound in beagle dogs and goes on to examine the underlying cause for the compound described. The findings suggest that the application of a population mean value of fraction unbound generated from a pooled sample may not always be appropriate and could introduce significant errors in scaling of in vitro clearance values, PBPK understanding, and interpretation of PKPD or toxicokinetic data in the context of unbound concentrations.

Discovery of AZD4573, a Potent and Selective Inhibitor of CDK9 That Enables Short Duration of Target Engagement for the Treatment of Hematological Malignancies

A CDK9 inhibitor having short target engagement would enable a reduction of Mcl-1 activity, resulting in apoptosis in cancer cells dependent on Mcl-1 for survival. We report the optimization of a series of amidopyridines (from compound 2), focusing on properties suitable for achieving short target engagement after intravenous administration. By increasing potency and human metabolic clearance, we identified compound 24, a potent and selective CDK9 inhibitor with suitable predicted human pharmacokinetic properties to deliver transient inhibition of CDK9. Furthermore, the solubility of 24 was considered adequate to allow i.v. formulation at the anticipated effective dose. Short-term treatment with compound 24 led to a rapid dose- and time-dependent decrease of pSer2-RNAP2 and Mcl-1, resulting in cell apoptosis in multiple hematological cancer cell lines. Intermittent dosing of compound 24 demonstrated efficacy in xenograft models derived from multiple hematological tumors. Compound 24 is currently in clinical trials for the treatment of hematological malignancies.

Novel potent and selective pyrazolylpyrimidine-based SYK inhibitors

Hybridisation of amino-pyrimidine based SYK inhibitors (e.g. 1a) with previously reported diamine-based SYK inhibitors (e.g. TAK-659) led to the identification and optimisation of a novel pyrimidine-based series of potent and selective SYK inhibitors, where the original aminomethylene group was replaced by a 3,4-diaminotetrahydropyran group. The initial compound 5 achieved excellent SYK potency. However, it suffered from poor permeability and modest kinase selectivity. Further modifications of the 3,4-diaminotetrahydropyran group were identified and the interactions of those groups with Asp512 were characterised by protein X-ray crystallography. Further optimisation of this series saw mixed results where permeability and kinase selectivity were increased and oral bioavailability was achieved in the series, but at the expense of potent hERG inhibition.

Identification of a novel series of azabenzimidazole-derived inhibitors of spleen tyrosine kinase

Spleen Tyrosine Kinase (SYK) is a well-studied enzyme with therapeutic applications in oncology and autoimmune diseases. We identified an azabenzimidazole (ABI) series of SYK inhibitors by mining activity data of 86,000 compounds from legacy biochemical assays with SYK and other homologous kinases as target enzymes. A structure-based design and hybridization approach was then used to improve the potency and kinase selectivity of the hits. Lead compound 23 from this novel ABI series has a SYK IC₅₀ = 0.21 nM in a biochemical assay and inhibits growth of SUDHL-4 cells at a GI₅₀ = 210 nM.

City deals, decentralisation and the governance of local infrastructure funding and financing in the UK

This article reflects upon a comparative analysis of the 28 ‘City Deals’ agreed between UK government, Scottish government and city-regional groupings in England and Scotland since 2011. The City Deals have sought to incentivise local actors to identify and prioritise ‘asks’ of UK and devolved governments, fund, finance and deliver infrastructure and other economic development interventions, and to reform city/city-region governance structures to ‘unlock’ urban growth. Our analysis is based upon 32 in-depth interviews with lead actors in the City Deals, including elected officials from local government, central government officials and policy specialists from think tanks, as well as a secondary literature review. We find that City Deals are reworking the role of the UK state internally and through changed central-local and intra-local (city-regional) relations. Regional and urban public policy is being recast as a process of deal-making founded upon territorial competition and negotiation between central national and local actors unequally endowed with information and resources, leading to highly imbalanced and inequitable outcomes across the UK. As a template for public policymaking in an emergent and decentralising context, deal-making raises substantive and unresolved issues for governance in the UK that are especially pertinent as the new Conservative government at Westminster pledges to widen and broaden this approach as a central component of its future devolution strategy and policy.

Pharmacology in translation: the preclinical and early clinical profile of the novel α2/3 functionally selective GABAA receptor positive allosteric modulator PF-06372865

BACKGROUND AND PURPOSE

Benzodiazepines, non-selective positive allosteric modulators (PAMs) of GABA_A receptors, have significant side effects that limit their clinical utility. As many of these side effects are mediated by the α1 subunit, there has been a concerted effort to develop α2/3 subtype-selective PAMs.

EXPERIMENTAL APPROACH

In vitro screening assays were used to identify molecules with functional selectivity for receptors containing α2/3 subunits over those containing α1 subunits. In vivo receptor occupancy (RO) was conducted, prior to confirmation of in vivo α2/3 and α1 pharmacology through quantitative EEG (qEEG) beta frequency and zolpidem drug discrimination in rats respectively. PF-06372865 was then progressed to Phase 1 clinical trials.

KEY RESULTS

PF-06372865 exhibited functional selectivity for those receptors containing α2/3/5 subunits, with significant positive allosteric modulation (90-140%) but negligible activity (≤20%) at GABA_A receptors containing α1 subunits. PF-06372865 exhibited concentration-dependent occupancy of GABA_A receptors in preclinical species. There was an occupancy-dependent increase in qEEG beta frequency and no generalization to a GABA_A α1 cue in the drug-discrimination assay, clearly demonstrating the lack of modulation at the GABA_A receptors containing an α1 subtype. In a Phase 1 single ascending dose study in healthy volunteers, evaluation of the pharmacodynamics of PF-06372865 demonstrated a robust increase in saccadic peak velocity (a marker of α2/3 pharmacology), increases in beta frequency qEEG and a slight saturating increase in body sway.

CONCLUSIONS AND IMPLICATIONS

PF-06372865 has a unique clinical pharmacology profile and a highly predictive translational data package from preclinical species to the clinical setting.

Task Forces and the Organisation of Economic Development: The Case of the North East Region of England

The task force has emerged as a mechanism for coordinating economic development activity in the context of the current New Labour government's emphasis upon including ‘stakeholders’ in ‘joined-up’ approaches to ‘crosscutting’ issues. In this paper I examine the use of task forces to organise economic development at employer, sectoral, and territorial levels at the local and regional scales in the North East region of England. It is argued that New Labour's experimental use of task forces reflects a particular mediation of more general tendencies in the historical evolution of state modernisation, which varies in particular and contingent ways at the local and regional levels. The research reveals the continued importance of the existing public-sector and public—private-sector institutions, the less significant and contingent role of the private sector, and the contribution of the task force to the ‘quasi-governance’ of the United Kingdom, with its problems of coordination, transparency, and accountability. A renewed politics of economic development governance is required to establish the accountability and legitimacy of such bodies in the context of the emergent multilayered governance system of the UK political economy.

The design, synthesis and evaluation of low molecular weight acidic sulfonamides as URAT1 inhibitors for the treatment of gout

A series of low molecular weight and synthetically facile acidic sulfonamides that are potent and selective URAT1 inhibitors is described.

The discovery and evaluation of diaryl ether heterocyclic sulfonamides as URAT1 inhibitors for the treatment of gout

A series of acidic heterocyclic sulfonamides that are potent and selective URAT1 inhibitors is described.

Sport science for salmon and other species: ecological consequences of metabolic power constraints

For metabolically demanding behaviours, power supply (ATP resynthesis per unit time) is an important constraint on performance. Yet ecology as a discipline lacks a framework to account for these power constraints. We developed such a framework (borrowing concepts from sports science) and applied it to the upriver migration of anadromous fish. Our models demonstrate how metabolic power constraints alters optimal migratory behaviour; in response to strong counter flows, fish minimise cost of transport by alternating between rapid, anaerobically fuelled swimming and holding to restore spent fuels. Models ignoring power constraints underestimated the effect of elevated water temperature on migration speed and costs (by up to 60%). These differences were primarily due to a temperature-mediated reduction in aerobic scope that impairs the ability of fish to rapidly migrate through warm waters. Our framework provides a mechanistic link between temperature-induced reductions in aerobic scope and their ecological consequences for individuals, populations and communities.

Wolbachia infection and Lepidoptera of conservation concern

Conservation of at-risk species requires multi-faceted and carefully-considered management approaches to be successful. For arthropods, the presence of endosymbiotic bacteria, such as Wolbachia (Rickettsiales: Rickettsiaceae), may complicate management plans and exacerbate the challenges faced by conservation managers. Wolbachia poses a substantial and underappreciated threat to the conservation of arthropods because infection may induce a number of phenotypic effects, most of which are considered deleterious to the host population. In this study, the prevalence of Wolbachia infection in lepidopteran species of conservation concern was examined. Using standard molecular techniques, 22 species of Lepidoptera were screened, of which 19 were infected with Wolbachia. This rate is comparable to that observed in insects as a whole. However, this is likely an underestimate because geographic sampling was not extensive and may not have included infected segments of the species' ranges. Wolbachia infections may be particularly problematic for conservation management plans that incorporate captive propagation or translocation. Inadvertent introduction of Wolbachia into uninfected populations or introduction of a new strain may put these populations at greater risk for extinction. Further sampling to investigate the geographic extent of Wolbachia infections within species of conservation concern and experiments designed to determine the nature of the infection phenotype(s) are necessary to manage the potential threat of infection.

In Search of the ‘Economic Dividend’ of Devolution: Spatial Disparities, Spatial Economic Policy, and Decentralisation in the UK

After a decade of devolution and amid uncertainties about its effects, it is timely to assess and reflect upon the evidence and enduring meaning of any ‘economic dividend’ of devolution in the UK. Taking an institutionalist and quantitative approach, we seek to discern the nature and extent of any economic dividend through a conceptual and empirical analysis of the relationships between spatial disparities, spatial economic policy, and decentralisation. Situating the UK experience within its evolving historical context, we find: (i) a varied and uneven nature of the relationships between regional disparities, spatial economic policy, and decentralisation that change direction during specific time periods; (ii) the role of national economic growth is pivotal in explaining spatial disparities and the nature and extent of their relationship with the particular forms of spatial economic policy and decentralisation deployed; and, (iii) there is limited evidence that any economic dividend of devolution has emerged, but this remains difficult to discern because its likely effects are overridden by the role of national economic growth in decisively shaping the pattern of spatial disparities and in determining the scope and effects of spatial economic policy and decentralisation.

Preclinical and clinical pharmacology of TPA023B, a GABAA receptor α2/α3 subtype-selective partial agonist

In the accompanying paper we describe how MRK-409 unexpectedly produced sedation in man at relatively low levels of GABA(A) receptor occupancy (∼10%). Since it was not clear whether this sedation was mediated via the α2/α3 or α1 GABA(A) subtype(s), we characterized the properties of TPA023B, a high-affinity imidazotriazine which, like MRK-409, has partial agonist efficacy at the α2 and α3 subtype but is an antagonist at the α1 subtype, at which MRK-409 has weak partial agonism. TPA023B gave dose- and time-dependent occupancy of rat brain GABA(A) receptors as measured using an in vivo [(3)H]flumazenil binding assay, with 50% occupancy corresponding to a respective dose and plasma drug concentration of 0.09 mg/kg and 19 ng/mL, the latter of which was similar to that observed in mice (25 ng/mL) and comparable to values obtained in baboon and man using [(11)C]flumazenil PET (10 and 5.8 ng/mL, respectively). TPA023B was anxiolytic in rodent and primate (squirrel monkey) models of anxiety (elevated plus maze, fear-potentiated startle, conditioned suppression of drinking, conditioned emotional response) yet had no significant effects in rodent or primate assays of ataxia and/or myorelaxation (rotarod, chain-pulling, lever pressing), up to doses (10 mg/kg) corresponding to occupancy of greater than 99%. In man, TPA023B was well tolerated at a dose (1.5 mg) that produced occupancy of >50%, suggesting that the sedation previously seen with MRK-409 is due to the partial agonist efficacy of that compound at the α1 subtype, and highlighting the importance of antagonist efficacy at this particular GABA(A) receptor population for avoiding sedation in man.

Abstract 5778: Fragment-based drug discovery of selective inhibitors of fibroblast growth factor receptor (FGFr)

Recent data in a number of tumour types has implicated Fibroblast Growth Factor (FGF) and Fibroblast Growth Factor receptor (FGFr) signalling as being key to the molecular pathology of cancer. This poster will describe fragment based drug discovery using biophysical screening to identify initial fragments. Subsequently, in the fragments-to-leads stage a detailed structural understanding of the binding interactions between the fragment and its target protein utilised X-ray crystallography and NMR. Starting with different fragments allows several lead series to be identified, often by synthesizing only small numbers of compounds.

A fragment screening campaign was conducted against the FGFr-1 to detect very low molecular weight compounds that bound to the hinge region of the kinase. The screening produced several fragment molecules (Molecular Weight <250 Da) which were in the micromolar range and confirmed binding mode in X-ray crystallography. One X-ray hit series that was 120 uM verse FGFr-3 will be described. Several iterations of structure-guided medicinal chemistry led to the identification of a lead compound with 3 nM affinity for FGFr-3, good cell activity and 30-fold selectivity verse VEGFr-2 with good oral activity. The lead was optimised to afford a compound that showed good PK/PD and efficacy.

This poster represents first disclosure of the structure of the lead series and illustrates how a fragment-based drug discovery approach can be efficiently used to discover compounds advanced nanomolar compounds with oral bioavailability.

Citation Format: {Authors}. {Abstract title} [abstract]. In: Proceedings of the 101st Annual Meeting of the American Association for Cancer Research; 2010 Apr 17-21; Washington, DC. Philadelphia (PA): AACR; Cancer Res 2010;70(8 Suppl):Abstract nr 5778.

The in vivo properties of pagoclone in rat are most likely mediated by 5′-hydroxy pagoclone

The cyclopyrrolone pagoclone binds with roughly equivalent high affinity (0.7-9.1nM) to the benzodiazepine binding site of human recombinant GABA(A) receptors containing either an alpha1, alpha2, alpha3 or alpha5 subunit. However, whereas it was a partial agonist at alpha1-, alpha2- and alpha5-containing GABA(A) receptors, pagoclone was a full agonist at receptors containing an alpha3 subunit. In the rat elevated plus maze assay pagoclone (3mg/kg) had significant anxiolytic-like activity but at all three doses tested (0.3, 1 and 3mg/kg p.o.) it produced a significant reduction in the total distance travelled. This sedative-like effect was confirmed in rat chain-pulling and spontaneous locomotor assays. Surprisingly, in the plasma and brain samples derived from the elevated plus maze assay, the major metabolite of pagoclone, 5'-hydroxy pagoclone, was present at 10-20-fold higher concentrations relative to the parent compound. In order to establish whether this metabolite might have pharmacological activity, we measured its affinity and efficacy profile and found that both were comparable to those of pagoclone with the exception that efficacy at the alpha1 subtype was considerably greater for 5'-hydroxy pagoclone compared with the parent. This metabolite had significant anxiolytic-like activity in the elevated plus maze but at these same doses (0.3-3mg/kg p.o.) also produced sedation. It is therefore likely that in rats 5'-hydroxy pagoclone mediates the majority of the pharmacological actions following pagoclone administration.

RAT PHARMACOKINETICS AND PHARMACODYNAMICS OF A SUSTAINED RELEASE FORMULATION OF THE GABAA α5-SELECTIVE COMPOUND L-655,708

The pharmacokinetic and pharmacodynamic (i.e., receptor occupancy) properties of L-655,708, a compound with selectivity for alpha5-over alpha1-, alpha2-, and alpha3-containing GABA(A) receptors, were examined in rats with the aim of developing a formulation that would give sustained (up to 6 h) and selective occupancy of alpha5-containing GABA(A) receptors suitable for behavioral studies. Standard rat pharmacokinetic analyses showed that L-655,708 has a relatively short half-life with kinetics in the brain mirroring those in the plasma. In vivo binding experiments showed that plasma concentrations of around 100 ng/ml gave relatively selective in vivo occupancy of rat brain alpha5-versus alpha1-, alpha2-, and alpha3-containing GABA(A) receptors. Therefore, this plasma concentration was chosen as a target to achieve relatively selective occupancy of alpha5-containing receptors using s.c. implantations of L-655,708 (0.4, 1.5, or 2.0 mg) formulated into tablets of various size (20 or 60 mg) containing different amounts of L-655,708 and combinations of low and high viscosity hydroxypropyl methylcellulose (LV- and HV-HPMC). The optimum formulation, 1.5 mg of L-655,708 compressed into a 60-mg tablet with 100% HV-HPMC, resulted in relatively constant plasma concentrations being maintained for at least 6 h with very little difference between C(max) concentrations (125-150 ng/ml) and plateau concentrations (100-125 ng/ml). In vivo binding experiments confirmed the selective occupancy of rat brain alpha5-over alpha1-, alpha2-, and alpha3-containing GABA(A) receptors.

P-Glycoprotein efflux reduces the brain concentration of the substance P (NK1 receptor) antagonists SR140333 and GR205171: a comparative study using mdr1a-/- and mdr1a+/+ mice

Investigation of the antidepressant-like actions of substance P (NK1 receptor) antagonists has been hindered by the few available compounds that bind with high affinity to the rat and mouse NK1 receptor, as these are the most commonly used preclinical species. The best available compounds for such studies are SR140333 and GR205171. However, SR140333 does not penetrate the central nervous system (CNS) after systemic administration, and GR205171 is active only at high doses, where unspecific pharmacological effects occur, so that changes in behaviour cannot be attributed to selective NK1 receptor blockade. These compounds may be substrates for P-glycoprotein (P-gp) and hence are actively excluded from the brain. The present studies used mdr1a-/- mice, a spontaneously occurring mutant that is deficient in P-gp, to examine the CNS penetration of SR140333 and GR205171. Following systemic administration of SR140333 and GR205171 (0.01-10 mg/kg i.v.), considerably higher drug concentrations were achieved in the brains of mdr1a-/- than in mdr1a+/+ mice, and this corresponded with a greater ability to inhibit NK1-agonist-induced behaviours in the mdr1a-/- mutants. Moreover, an NK1-receptor-specific inhibition of aggressive behaviour by GR205171 (10 mg/kg) could be demonstrated in mdr1a-/-, but not mdr1a+/+, mice. These findings suggest that P-gp deficient mice may have useful applications in behavioural pharmacology studies, especially when highly brain-penetrant compounds are not yet available.

Determination of the collisionally activated dissociation of a substituted indole by orthogonal acceleration quadrupole time-of-flight mass spectrometry

The use of orthogonal acceleration quadrupole time-of-flight (Q-TOF) mass spectrometry to determine the collisionally activated dissociation (CAD) of a test compound 1-(3-[5-[1,2,4-triazol-4-yl]-1H-indol-3-yl]propyl)-4-(2-[3-fluorophenyl]ethyl)piperazine is described. At unit-mass resolution the identity of many ions is ambiguous because of the complexity of the resulting product ion spectrum. Using the high resolution capabilities of the Q-TOF instrument, exact masses for each fragment were determined. These data were used to infer molecular formulas for each fragment through software interpretation and, by further applying chemical intuition, the majority of ions were fully assigned. Additionally, by utilizing in-source fragmentation at high cone voltage, analyses of second-generation products allowed derivation of a consistent sequential fragmentation pathway. This study clearly demonstrates the power of Q-TOF mass spectrometry to elucidate complex product ion spectra.

Calorie restriction modulates age-dependent changes in the retinas of Brown Norway rats

The present study examined the effect of a 40% reduction in caloric intake (CR) versus ad libitum (AL) feeding on retinal aging. CR- and AL-fed Brown Norway (BN) rats were obtained at 12, 24 and 30 months of age from the National Center for Toxicological Research (NCTR). Age-dependent declines in outer nuclear layer (ONL=photoreceptor) cell densities, ONL height, inner nuclear layer (INL) cell densities, and thicknesses of the inner retina and whole retina were quantified in thick sections at six loci across the circumference of the sensory retina (four peripheral, two central). Data were analyzed by repeated measures, general linear models. Aging in both diet groups was associated with declines in ONL cell density, ONL height, peripheral INL cell density and total retinal thickness (P< or =0.05). However, ONL cell densities, ONL height and retinal thickness were significantly greater in the CR versus AL diet group at all three ages (P< or =0.005). CR was also associated with a trend for greater peripheral INL cell density (P=0.06) and with greater INL thickness at 30 months (Bonferroni P=0.03). Elevated ONL cell densities in the CR-12 cohort relative to the AL-12 cohort could be explained by diet-associated differences in retinal length, i.e. delayed retinal growth in response to CR. Enhanced ONL cell density, ONL height, INL cell density, INL thickness and total retinal thickness in the CR-30 cohort appear to be as a result of reduced rates of retinal cell loss between 24 and 30 months. However, the protective effect of CR in retinas of older animals may also reflect the initial growth-associated enhancements which were observed in 12 month-old animals. The rat retina may provide a useful model for elucidating the neuroprotective mechanism(s) of CR.

Adolescents' relationships to siblings and mothers: a multivariate genetic analysis

Research has consistently demonstrated that children's behavior toward their siblings tends to resemble interactions occurring in the parent-child relationship. This study examined the relative contributions of genetic and environmental influences to the covariation between sibling relationships and mother-adolescent relationships. Reported and observed family interactions were assessed for 719 same-sex sibling pairs of varying degrees of genetic relatedness. The covariance between mother-adolescent and sibling interactions was decomposed into genetic, shared, and nonshared environmental components. The overlapping effects of shared environment on the two relationship subsystems explained most of the covariance. Smaller but significant genetic and nonshared environmental effects were also found. The consistency of these findings with family processes, such as modeling, is discussed.

The importance of shared environmental influences in explaining the overlap between mother's parenting and sibling relationships: reply to Neale (1999)

This article addresses concerns raised by M. C. Neale (1999) in his commentary on the D. A. Bussell et al. (1999) Nonshared Environment in Adolescent Development (NEAD) study. These concerns fall into two categories: (a) model assumptions and sample design and (b) testing of alternative models. The validity of the assumptions of quantitative genetic models is a concern for all researchers in this area. Discussion of those assumptions in this reply is brief and focuses on those most relevant to the NEAD sample. The two alternative models proposed by Neale were designed to provide alternatives to the large shared environmental effect found in the original report of Bussell et al. Because these alternative models did not provide a better fit, the appropriateness of Bussell et al.'s basic model and the importance of shared environmental influences for explaining the association among family subsystems are supported.

Antibodies to Japanese encephalitis virus in human sera collected from Irian Jaya. Follow-up of a previously reported case of Japanese encephalitis in that region

Japanese encephalitis virus (JEV) and other arboviruses are demonstrating an emergence in the southern part of New Guinea Island. JE was previously unknown in this part of the world until 1995 when it was found in the Torres Strait, northern Australia. In this study 96 sera collected from residents of the Timika region of Irian Jaya were tested for antibodies to JEV and related arboviruses by epitope-specific blocking ELISA. Of the 9 sera deemed to be positive for JEV antibodies by ELISA, 5 were collected from persons indigenous to Timika, and who had not travelled to regions where JE is known to be active. This indicates that these individuals were infected with JEV in the Timika area and supports a recent report of a clinical case of JE in this region. Non-immune expatriates visiting or working in the Lowland areas of Irian Jaya and/or Papua New Guinea should consider immunization against JE. Precautions should always be taken to avoid being bitten by any mosquito both in the daytime and at night.

1-(3-Cyanobenzylpiperidin-4-yl)-5-methyl-4-phenyl-1, 3-dihydroimidazol-2-one: a selective high-affinity antagonist for the human dopamine D(4) receptor with excellent selectivity over ion channels

After the requirement of pseudocycle formation in the ureas 3 and 7 for hD(4) binding and selectivity was confirmed, structural hybridization with the known hD(4) ligand 2 led to the design and identification of the lead 4-(2-oxo-1, 3-dihydroimidazol-2-yl)piperidine 8. Optimization studies were carried out on 8 with the aim of achieving 1000-fold selectivity for hD(4) over all other receptors while retaining the good pharmacokinetic properties of the lead. After initial preparation of 8 as a minor component in a low-yielding reaction, a novel and regioselective "four-step/one-pot" procedure was developed which proved to be applicable to rapid investigation of the SAR of the 1, 3-dihydroimidazol-2-one ring. Various changes to substituents attached to the 3-, 4-, or 5-position of the 1, 3-dihydroimidazol-2-one core of 8 did not significantly improve selectivity for hD(4) over hD(2) and hD(3). Greater selectivity (>1000-fold) was ultimately achieved by meta substitution of the benzyl group of 8 with various substituents. Compounds 28, 31, and 32 all possess the required selectivity for hD(4) over the other dopamine subtypes, but only 32 has >1000-fold selectivity over all the key counterscreens we tested against. Compound 32 is an antagonist at hD(4) and has a good pharmacokinetic profile in the rat, with excellent estimated in vivo receptor occupancy, thus making it a potentially useful pharmacological tool to investigate the role of the D(4) receptor.

Fluorination of 3-(3-(piperidin-1-yl)propyl)indoles and 3-(3-(piperazin-1-yl)propyl)indoles gives selective human 5-HT1D receptor ligands with improved pharmacokinetic profiles

It has previously been reported that a 3-(3-(piperazin-1-yl)propyl)indole series of 5-HT1D receptor ligands have pharmacokinetic advantages over the corresponding 3-(3-(piperidin-1-yl)propyl)indole series and that the reduced pKa of the piperazines compared to the piperidines may be one possible explanation for these differences. To investigate this proposal we have developed versatile synthetic strategies for the incorporation of fluorine into these ligands, producing novel series of 4-fluoropiperidines, 3-fluoro-4-aminopiperidines, and both piperazine and piperidine derivatives with one or two fluorines in the propyl linker. Ligands were identified which maintained high affinity and selectivity for the 5-HT1D receptor and showed agonist efficacy in vitro. The incorporation of fluorine was found to significantly reduce the pKa of the compounds, and this reduction of basicity was shown to have a dramatic, beneficial influence on oral absorption, although the effect on oral bioavailability could not always be accurately predicted.

Adolescent perceptions as mediators of parenting: genetic and environmental contributions

Explaining how genetic factors contribute to associations between parenting and adolescent adjustment is an important next step in developmental research. This study examined the mediating effect of adolescent perceptions on these associations and the genetic and environmental influences underpinning the mediated relationship. Parent, adolescent, and observer ratings of parenting and adolescent adjustment were used in a genetically informative sample of 720 same-sex sibling pairs from 10 to 18 years old. Adolescent perceptions of parenting did significantly mediate a composite measure of parental conflict-negativity and adolescent antisocial behavior and depressive symptoms. The most substantial genetic contributions to the association between parenting and adolescent maladjustment were those mediated by adolescent perceptions. Once genetic and environmental contributions to adolescent perceptions of parenting were removed, shared environmental factors became more important for the remaining direct association.

Adolescent perceptions as mediators of parenting: genetic and environmental contributions

Explaining how genetic factors contribute to associations between parenting and adolescent adjustment is an important next step in developmental research. This study examined the mediating effect of adolescent perceptions on these associations and the genetic and environmental influences underpinning the mediated relationship. Parent, adolescent, and observer ratings of parenting and adolescent adjustment were used in a genetically informative sample of 720 same-sex sibling pairs from 10 to 18 years old. Adolescent perceptions of parenting did significantly mediate a composite measure of parental conflict-negativity and adolescent antisocial behavior and depressive symptoms. The most substantial genetic contributions to the association between parenting and adolescent maladjustment were those mediated by adolescent perceptions. Once genetic and environmental contributions to adolescent perceptions of parenting were removed, shared environmental factors became more important for the remaining direct association.

Hormone replacement therapy is associated with improved arterial physiology in healthy post-menopausal women

OBJECTIVE

Oestrogen replacement therapy is associated with a marked reduction in coronary event rates in post-menopausal women. As older age is associated with progressive arterial endothelial damage, a key event in atherosclerosis, we assessed whether hormone replacement therapy (HRT) with oestrogen alone, or oestrogen and progesterone combined, is associated with improved endothelial function in healthy women after the menopause.

DESIGN

Using high resolution external vascular ultrasound, brachial artery diameter was measured at rest and in response to reactive hyperaemia, with increased flow causing endothelium-dependent dilatation (flow-mediated dilatation).

PATIENTS

We investigated 135 healthy women; 40 were pre-menopausal (mean +/- SD age/26 +/- 6 years, group 1), 40 were post-menopausal and had never taken HRT (aged 58 +/- 3 years; group 2) and 55 were age-matched post-menopausal women who had taken HRT for > or = 2 years, from within 2 years of the menopause (aged 57 +/- 4 years; group 3). In group 3, 40 women were on combined oestrogen and progesterone and 15 on oestrogen-only HRT.

RESULTS

In group 2, flow-mediated dilatation was significantly reduced compared with group 1 (4.4 +/- 3.4 vs 9.6 +/- 3.6%, P < 0.001), consistent with a decline in arterial endothelial function after the menopause. In group 3, however, flow-mediated dilatation was significantly better than group 2 (6.2 +/- 3.3 vs 4.4 +/- 3.4%, P = 0.01), suggesting a protective effect of HRT. Flow-mediated dilatation was similar in women taking oestrogen alone and in those on combined HRT (5.5 +/- 2.8 vs 6.5 +/- 3.4%, P = 0.40).

CONCLUSIONS

Long-term HRT is associated with improved arterial endothelial function in healthy post-menopausal women. This benefit was observed in both the combined hormone replacement and unopposed oestrogen therapy groups. This may explain some of the apparent cardioprotective effect of HRT after the menopause.