2' biaryl amides as novel and subtype selective M1 agonists. Part II: Further optimization and profiling.

Further optimization of the biaryl amide series via extensively exploring structure-activity relationships resulted in potent and subtype selective M(1) agonists exemplified by compounds 9a and 9j with good rat PK properties including CNS penetration. Synthesis, structure-activity relationships, subtype selectivity for M(1) over M(2-5), and DMPK properties of these novel compounds are described.

2' biaryl amides as novel and subtype selective M1 agonists. Part I: Identification, synthesis, and initial SAR.

Biaryl amides were discovered as novel and subtype selective M(1) muscarinic acetylcholine receptor agonists. The identification, synthesis, and initial structure-activity relationships that led to compounds 3j and 4c, possessing good M(1) agonist potency and intrinsic activity, and subtype selectivity for M(1) over M(2-5), are described.

The identification of novel orally active mGluR5 antagonist GSK2210875.

The identification of novel orally active mGluR5 antagonist GSK2210875 is described.

The discovery of a series of N-substituted 3-(4-piperidinyl)-1,3-benzoxazolinones and oxindoles as highly brain penetrant, selective muscarinic M1 agonists.

A series of N-substituted 3-(4-piperidinyl)-1,3-benzoxazolinones and oxindoles are reported which were found to be potent and selective muscarinic M1 agonists. By control of the physicochemical characteristics of the series, particularly the lipophilicity, compounds with good metabolic stability and excellent brain penetration were identified. An exemplar of the series was shown to be pro-cognitive in the novel object recognition rat model of temporal induced memory deficit.

Defining patient centricity with patients for patients and caregivers: a collaborative endeavour.

BACKGROUND: Patient engagement is an essential aspect in the research/development of biopharmaceutical products and disease management. Improving the lives of patients requires a deep understanding of their medical conditions, experiences, needs and priorities. However, a consistent definition of patient centricity is lacking. A series of initiatives was conducted to define patient centricity and its important principles impacting the biopharmaceutical industry. METHODS: Interviews, questionnaires and literature reviews were conducted involving key stakeholders to initially identify issues of importance to patients, healthcare providers and payers. Subsequently, two identical workshops which included 22 patients/carers created a definition of patient centricity and the healthcare values important to patients/caregivers. Outputs were tested in a validation exercise involving patients in predominantly US (n=470) and European (n=703) patient forums. RESULTS: Initial research provided deeper understanding of patient needs and key topics of interest that were used to cocreate a definition of patient centricity and 10 associated principles of importance to the biopharmaceutical industry. Wider testing of these outputs among predominantly US/European patient communities confirmed their validity. Patient centricity should be defined as 'Putting the patient first in an open and sustained engagement of the patient to respectfully and compassionately achieve the best experience and outcome for that person and their family'. Important principles for patients focused on education/information, cocreation, access and transparency. CONCLUSIONS: The development of a consistent definition of patient centricity and its associated principles provides an opportunity for biopharmaceutical companies to adopt and use these as a reference point for consistent patient engagement throughout the product life cycle.

Culture and Process Change as a Priority for Patient Engagement in Medicines Development.

Patient Focused Medicines Development (PFMD) is a not-for-profit independent multinational coalition of patients, patient stakeholders, and the pharmaceutical industry with interests across diverse disease areas and conditions. PFMD aims to facilitate an integrated approach to medicines development with all stakeholders involved early in the development process. A key strength of the coalition that differentiates it from other groups that involve patients or patient groups is that PFMD has patient organizations as founding members, ensuring that the patient perspective is the starting point when identifying priorities and developing solutions to meet patients' needs. In addition, PFMD has from inception been formed as an equal collaboration among patient groups, patients, and pharmaceutical industry and has adopted a unique trans-Atlantic setup and scope that reflects its global intent. This parity extends to its governance model, which ensures at least equal or greater share of voice for patient group members. PFMD is actively inviting additional members and aims to expand the collaboration to include stakeholders from other sectors. The establishment of PFMD is particularly timely as patient engagement (PE) has become a priority for many health stakeholders and has led to a surge of mostly disconnected activities to deliver this. Given the current plethora of PE initiatives, an essential first step has been to determine, based on a comprehensive mapping, those strategic areas of most need requiring a focused initial effort from the perspective of all stakeholders. PFMD has identified four priority areas that will need to be addressed to facilitate implementation of PE. These are (1) culture and process change, (2) development of a global meta-framework for PE, (3) information exchange, and (4) training. This article discusses these priority themes and ongoing or planned PFMD activities within each.

Diastereoselective synthesis of fused lactone-pyrrolidinones; application to a formal synthesis of (-)-salinosporamide A.

A mild, diastereoselective synthesis of fused lactone-pyrrolidinones using an oxidative radical cyclization is reported. The methodology is demonstrated in a formal synthesis of (-)-salinosporamide A.

Novel N-Substituted Benzimidazolones as Potent, Selective, CNS-Penetrant, and Orally Active M1 mAChR Agonists.

Virtual screening of the corporate compound collection yielded compound 1 as a subtype selective muscarinic M1 receptor agonist hit. Initial optimization of the N-capping group of the central piperidine ring resulted in compounds 2 and 3 with significantly improved potency and selectivity. Subsequent optimization of substituents on the phenyl ring of the benzimidazolone moiety led to the discovery of novel muscarinic M1 receptor agonists 4 and 5 with excellent potency, general and subtype selectivity, and pharmacokinetic (PK) properties including good central nervous system (CNS) penetration and oral bioavailability. Compound 5 showed robust in vivo activities in animal models of cognition enhancement. The combination of high potency, excellent selectivity, and good PK properties makes compounds 4 and 5 valuable tool compounds for investigating and validating potential therapeutic benefits resulting from selective M1 activation.

Studies towards the identification of a new generation of atypical antipsychotic agents.

A rational structure-activity relationship study around compound (1) is reported. The lead optimisation programme led to the identification of sulfonamide (25), a molecule combining dopamine D2/D3 receptor antagonism with serotonin 5-HT2A, 5-HT2C, 5-HT6 receptor antagonism for an effective treatment of schizophrenia. Compound (25) was shown to possess the required in vivo activity with no EPS liability.