Stimulation of platelet P2Y1 receptors by different endogenous nucleotides leads to functional selectivity via biased signalling

Attributes novel drug candidate: Constitutive GPCR signal bias mediated by purinergic receptors

G protein-coupled receptors (GPCRs) can transmit signals via G protein-dependent or independent pathways due to the conformational changes of receptors and ligands, which is called biased signaling. This concept posits that ligands can selectively activate a specific signaling pathway after receptor activation, facilitating downstream signaling along a preferred pathway. Biased agonism enables the development of ligands that prioritize therapeutic signaling pathways while mitigating on-target undesired effects. As a class of GPCRs located on the surface of cell membranes, the discovery and clinical implementation of adenosine and P2Y receptors purinergic signaling modulators have progressed dramatically. However, many preclinical drug candidates targeting purinergic receptors have failed in clinical trials due to limited efficacy and/or severe on-target undesired effects. To overcome the key barriers typically encountered when transitioning ligands into the clinic, the renewed impetus has focused on the modulation of purinergic receptor function by exogenous agonists/antagonists and allosteric modulators to exploit biased agonism. This article provides a brief overview of the research progress on the mechanism of purinergic biased signal transduction from the conformational changes of purinergic GPCRs and biased ligands primarily, and highlights therapeutically relevant biased agonism at purinergic receptors.

Asthma and Cardiovascular Diseases: Navigating Mutual Pharmacological Interferences

Asthma and cardiovascular disease (CVD) often co-exist. When a patient has both conditions, management requires an approach that addresses the unique challenges of each condition separately, while also considering their potential interactions. However, specific guidance on the management of asthma in patients with CVD and on the management of CVD in patients with asthma is still lacking. Nevertheless, health care providers need to adopt a comprehensive approach that includes both respiratory and CVD health. The management of CVD in patients with asthma requires a delicate balance between controlling respiratory symptoms and minimising potential cardiovascular (CV) risks. In the absence of specific guidelines for the management of patients with both conditions, the most prudent approach would be to follow established guidelines for each condition independently. Careful selection of asthma medications is essential to avoid exacerbation of CV symptoms. In addition, optimal management of CV risk factors is essential. However, close monitoring of these patients is important as there is evidence that some asthma medications may have adverse effects on CVD and, conversely, that some CVD medications may worsen asthma symptoms. On the other hand, there is also increasing evidence of the potential beneficial effects of asthma medications on CVD and, conversely, that some CVD medications may reduce the severity of asthma symptoms. We aim to elucidate the potential risks and benefits associated with the use of asthma medications in patients with CVD, and the potential pulmonary risks and benefits for patients with asthma who are prescribed CVD medications.

Progress on the development of Class A GPCR-biased ligands

Class A G protein-coupled receptors (GPCRs) continue to garner interest for their essential roles in cell signalling and their importance as drug targets. Although numerous drugs in the clinic target these receptors, over 60% GPCRs remain unexploited. Moreover, the adverse effects triggered by the available unbiased GPCR modulators, limit their use and therapeutic value. In this context, the elucidation of biased signalling has opened up new pharmacological avenues holding promise for safer therapeutics. Functionally selective ligands favour receptor conformations facilitating the recruitment of specific effectors and the modulation of the associated pathways. This review surveys the current drug discovery landscape of GPCR-biased modulators with a focus on recent advances. Understanding the biological effects of this preferential coupling is at different stages depending on the Class A GPCR family. Therefore, with a focus on individual GPCR families, we present a compilation of the functionally selective modulators reported over the past few years. In doing so, we dissect their therapeutic relevance, molecular determinants and potential clinical applications.

Exploring bias in platelet P2Y1 signalling: Host defence versus haemostasis

Platelets are necessary for maintaining haemostasis. Separately, platelets are important for the propagation of inflammation during the host immune response against infection. The activation of platelets also causes inappropriate inflammation in various disease pathologies, often in the absence of changes to haemostasis. The separate functions of platelets during inflammation compared with haemostasis are therefore varied and this will be reflected in distinct pathways of activation. The activation of platelets by the nucleotide adenosine diphosphate (ADP) acting on P2Y1 and P2Y12 receptors is important for the development of platelet thrombi during haemostasis. However, P2Y1 stimulation of platelets is also important during the inflammatory response and paradoxically in scenarios where no changes to haemostasis and platelet aggregation occur. In these events, Rho-GTPase signalling, rather than the canonical phospholipase Cβ (PLCβ) signalling pathway, is necessary. We describe our current understanding of these differences, reflecting on recent advances in knowledge of P2Y1 structure, and the possibility of biased agonism occurring from activation via other endogenous nucleotides compared with ADP. Knowledge arising from these different pathways of P2Y1 stimulation of platelets during inflammation compared with haemostasis may help therapeutic control of platelet function during inflammation or infection, while preserving essential haemostasis. LINKED ARTICLES: This article is part of a themed issue on Platelet purinergic receptor and non-thrombotic disease. To view the other articles in this section visit http://onlinelibrary.wiley.com/doi/10.1111/bph.v181.4/issuetoc.

Platelet purinergic receptors and non-thrombotic diseases

LINKED ARTICLES

This article is part of a themed issue on Platelet purinergic receptor and non-thrombotic disease. To view the other articles in this section visit http://onlinelibrary.wiley.com/doi/10.1111/bph.v181.4/issuetoc.