BioSpace.com

Biotech and Pharmaceutical
News & Jobs
Search the Site
 
   
Biotechnology and Pharmaceutical Channel Medical Device and Diagnostics Channel Clinical Research Channel BioSpace Collaborative    Job Seekers:  Register | Login          Employers:  Register | Login  

NEWSLETTERS
Free Newsletters
Archive
My Subscriptions

NEWS
News by Subject
News by Disease
News by Date
PLoS
Search News
Post Your News
JoVE

CAREER NETWORK
Job Seeker Login
Most Recent Jobs
Browse Biotech Jobs
Search Jobs
Post Resume
Career Fairs
Career Resources
For Employers

HOTBEDS
Regional News
US & Canada
  Biotech Bay
  Biotech Beach
  Genetown
  Pharm Country
  BioCapital
  BioMidwest
  Bio NC
  BioForest
  Southern Pharm
  BioCanada East
  US Device
Europe
Asia

DIVERSITY

INVESTOR
Market Summary
News
IPOs

PROFILES
Company Profiles

START UPS
Companies
Events

INTELLIGENCE
Research Store

INDUSTRY EVENTS
Biotech Events
Post an Event
RESOURCES
Real Estate
Business Opportunities

 News | News By Subject | News by Disease News By Date | Search News
eNewsletter Signup
Miles
Km80.5

   

Heptares Review Article Highlights Promise of Structure-Based Drug Design for G Protein Coupled Receptors (GPCRs)


4/25/2012 10:13:16 AM

WELWYN GARDEN CITY, England and BOSTON, April 25, 2012 /PRNewswire/ --

Review published in Trends in Pharmacological Sciences

Heptares Therapeutics, the leading GPCR drug discovery company, announces the recent publication of a major review of the state of the art for GPCR drug discovery and new insights that, for the first time, can be obtained from structural biology. The review has been published online in Trends in Pharmacological Sciences, a Cell Press publication (ref. 1), and will appear in a special issue of the journal in May, which focuses on structure-based drug design (SBDD).

The authors from Heptares describe how SBDD is becoming the new paradigm for drug discovery targeting GPCRs due to recent technological developments in GPCR stabilisation and novel structural biology. Previously, such approaches were only applicable to soluble enzymes (such as kinases), for which they have now become integrated into the best practices of medicinal chemists. The success of SBDD in developing superior drugs targeting these enzymes has had a significant impact on the pipelines of pharmaceutical companies, leading to the development of multiple marketed drugs and late-stage pipeline candidates.

"The promise of SBDD for GPCRs is that rational design can now be used to identify and optimise ligands that bind challenging or undruggable GPCR targets," said Fiona Marshall, Heptares' Chief Scientific Officer and co-author of the paper. "These small molecules have the potential to offer better potency, selectivity and drug-like properties than previously achievable, establishing a strong basis for the development of much improved medicines for patients."

In the review, the authors discuss how the recent availability of X-ray structures of GPCRs in multiple pharmacologically relevant and ligand-bound conformations, and the subsequent computational analyses of the ligand-binding sites in these conformations, provide a new way to assess the druggability of GPCRs. Druggability is the property of a drug target describing the ease with which a satisfactory small molecule drug may be found which modulates that target in the desired manner. It is a key factor in prioritization of drug discovery targets.

As an example of this, the authors describe Heptares' recent work on the SBDD of A2A antagonists, illustrating how small, potent and selective compounds can be discovered and optimised using virtual screening and receptor-ligand models and X-ray co-structures. A deep druggable region of the A2A binding site revealed by crystallography was targeted and fully exploited to design orally available and efficacious antagonists (ref. 2). A lead candidate in this series is the subject of a global licensing agreement recently announced between Heptares and Shire.

To date, Heptares has applied its GPCR-focused SBDD approach to several other important GPCRs, enabling the assembly of a rich pipeline of novel drug candidates targeting serious neurological (CNS) and metabolic disorders, including: highly selective muscarinic M1 agonists (Alzheimer's disease and cognitive impairment associated with other CNS disorders); dual orexin 1/2 antagonist (chronic insomnia); selective orexin 1 antagonist (addiction and compulsive disorders); allosteric modulators of mGluR5 (autism, Parkinson's disease, depression and anxiety); GLP-1 agonist (Type 2 diabetes); and CXCR-4 antagonists (cancer/HIV).

About Heptares Therapeutics

Heptares discovers and develops new medicines targeting GPCRs (G-protein-coupled receptors), a super-family of drug targets linked to a wide range of human diseases. We have established R&D collaborations with Shire, Takeda, AstraZeneca, MedImmune and Novartis Option Fund, and have raised $40M in venture financing from MVM Life Science Partners, Clarus Ventures, Novartis Venture Fund and Takeda Ventures. Heptares is an industry pioneer in GPCR structure-based drug design and has built a unique capability for discovering novel molecules that modulate historically undruggable or challenging GPCRs. Our integrated discovery platform includes proprietary technologies for engineering stabilised GPCRs in their natural pharmacological conformations, identifying previously unknown chemistries for GPCR protein-drug interactions, and deploying advanced fragment-based approaches to GPCR target space for the first time. Using this approach, we are generating a broad pipeline of drug candidates for serious CNS and metabolic disorders, including Alzheimer's disease, Parkinson's disease, schizophrenia, autism, anxiety & depression, chronic insomnia, addiction and diabetes. For more information, please visit http://www.heptares.com.

References

  1. Mason, J.S., et al., New Insights from Structural Biology into the Druggability of G Protein-coupled Receptors. Trends Pharmacol. Sci. 2012, 10.1016/j.tips.2012.02.005
  2. Congreve, M. et al. Discovery of 1,2,4-Triazine Derivatives as Adenosine A2A Antagonists using Structure Based Drug Design. J. Med. Chem. 2012, 55 (5):1898-19034

Contact Information


Citigate Dewe Rogerson (for Heptares)
Mark Swallow, Chris Gardner
+44(0)20-7282-2948
mark.swallow@citigatedr.co.uk


Heptares Therapeutics Ltd

Malcolm Weir, Chief Executive Officer (UK)
+44(0)1707-358-629
malcolm.weir@heptares.com


Dan Grau, President (USA)
+1-857-222-4586
dan.grau@heptares.com

SOURCE Heptares Therapeutics



Read at BioSpace.com

Heptares
 
 

ADD TO DEL.ICIO.US    ADD TO DIGG    ADD TO FURL    ADD TO STUMBLEUPON    ADD TO TECHNORATI FAVORITES