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Current Immunology Reviews (Discontinued)

Editor-in-Chief

ISSN (Print): 1573-3955
ISSN (Online): 1875-631X

Pitfalls and Solutions for the Validation of Novel Drugs in Animal Models of Disease

Author(s): Zoe Johnson, Christine A. Power and Amanda E. I. Proudfoot

Volume 8, Issue 2, 2012

Page: [181 - 189] Pages: 9

DOI: 10.2174/157339512800099639

Price: $65

Abstract

Aberrant cell recruitment is a hallmark of inflammatory responses, a complex process orchestrated by a unique interplay of adhesion, chemotactic and pro-inflammatory molecules. To date there are only two marketed drugs that block cell migration, interestingly both for Multiple Sclerosis (MS). Tysabri/Natalizumab, a humanized monoclonal antibody against the cellular adhesion molecule VLA-4 was the first to be approved for the treatment of MS. A second inhibitor of migration, Gilenya/fingolimod entered the market last year, having received FDA approval in 2010. There are many more drugs targeting cellular recruitment in preclinical and clinical development, reflecting the promise that lies behind inhibiting this process as treatment for a range of inflammatory diseases. Confirmation of efficacy of the compound/drug in vivo is an important part of the drug development process and is essential for drugs that have a novel mechanism of action. Additionally, toxicological tests to determine the safety of the drug are a pre-requisite for successful IND filing. In pre-clinical development studies, drugs are preferentially tested for efficacy in rodent species such as mice, however in order for these tests to be relevant, the compound has to show cross-reactivity with the target in the test species, which can be a major hurdle for some target classes including chemokines. Not only do such tests rely on compound cross-reactivity, but differences in biology, in particular of the immune system between rodents and humans, can cause additional problems for drug development. In this review, we discuss, in the context of cell migration and inflammation, the problems that arise during pre-clinical testing in vivo, including strategies to mitigate these risks.

Keywords: Antibodies, chemokines, drug development, inflammation, inhibitors, pre-clinical pharmacology, rodent models, toxicology

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