Translational research in central nervous system drug discovery

doi:10.1602/neurorx.2.4.671

Review

. 2005 Oct;2(4):671-82.

doi: 10.1602/neurorx.2.4.671.

Translational research in central nervous system drug discovery

Orest Hurko¹, John L Ryan

Affiliations

PMID: 16489374
PMCID: PMC1201324
DOI: 10.1602/neurorx.2.4.671

Review

Translational research in central nervous system drug discovery

Orest Hurko et al. NeuroRx. 2005 Oct.

. 2005 Oct;2(4):671-82.

doi: 10.1602/neurorx.2.4.671.

Authors

Orest Hurko¹, John L Ryan

Affiliation

¹ Translational Research, Wyeth, Collegeville, Pennsylvania 19426, USA. hurkoo@wyeth.com

PMID: 16489374
PMCID: PMC1201324
DOI: 10.1602/neurorx.2.4.671

Abstract

Of all the therapeutic areas, diseases of the CNS provide the biggest challenges to translational research in this era of increased productivity and novel targets. Risk reduction by translational research incorporates the "learn" phase of the "learn and confirm" paradigm proposed over a decade ago. Like traditional drug discovery in vitro and in laboratory animals, it precedes the traditional phase 1-3 studies of drug development. The focus is on ameliorating the current failure rate in phase 2 and the delays resulting from suboptimal choices in four key areas: initial test subjects, dosing, sensitive and early detection of therapeutic effect, and recognition of differences between animal models and human disease. Implementation of new technologies is the key to success in this emerging endeavor.

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References

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1. Sheiner L. Learning versus confirming in clinical drug development. Clin Pharm Ther 61: 275–291, 1997. - PubMed
1. Schadt EE, Monks SA, Friend SH. A new paradigm for drug discovery: integrating clinical genetic, genomic and molecular phenotype data to identify drug targets. Biochem Soc Trans 31: 437–443, 2003. - PubMed
1. Hsiao K, Chapman P, Nilsen S, Eckman C, Harigaya Y, Younkin S, Yang F, Cole G. Correlative memory deficits, A-β elevation, and amyloid plaques in transgenic mice. Science 274: 99–103, 1996. - PubMed
1. Citron M, Westaway D, Xia W, Carlson G, Diehl T, Levesque G, Johnson-Wood K, Lee M, Seubert P, Davis A, Kholodenko D, Motter R, Sherrington R, Perry B, Yao H, Strome R, Lieberburg I, Rommens J, Kim S, Schenk D, Fraser P, St. George Hyslop P, Selkoe DJ. Mutant presenilins of Alzheimer's disease increase production of 42-residue amyloid β-protein in both transfected cells and transgenic mice. Nat Med 3: 67–72, 1997. - PubMed

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[1] Drews J. In quest of tomorrow's medicines. New York: Springer, 1998.

[2] Drews J. In quest of tomorrow's medicines. New York: Springer, 1998.

[3] Sheiner L. Learning versus confirming in clinical drug development. Clin Pharm Ther 61: 275–291, 1997. - PubMed

[4] Sheiner L. Learning versus confirming in clinical drug development. Clin Pharm Ther 61: 275–291, 1997. - PubMed

[5] Schadt EE, Monks SA, Friend SH. A new paradigm for drug discovery: integrating clinical genetic, genomic and molecular phenotype data to identify drug targets. Biochem Soc Trans 31: 437–443, 2003. - PubMed

[6] Schadt EE, Monks SA, Friend SH. A new paradigm for drug discovery: integrating clinical genetic, genomic and molecular phenotype data to identify drug targets. Biochem Soc Trans 31: 437–443, 2003. - PubMed

[7] Hsiao K, Chapman P, Nilsen S, Eckman C, Harigaya Y, Younkin S, Yang F, Cole G. Correlative memory deficits, A-β elevation, and amyloid plaques in transgenic mice. Science 274: 99–103, 1996. - PubMed

[8] Hsiao K, Chapman P, Nilsen S, Eckman C, Harigaya Y, Younkin S, Yang F, Cole G. Correlative memory deficits, A-β elevation, and amyloid plaques in transgenic mice. Science 274: 99–103, 1996. - PubMed

[9] Citron M, Westaway D, Xia W, Carlson G, Diehl T, Levesque G, Johnson-Wood K, Lee M, Seubert P, Davis A, Kholodenko D, Motter R, Sherrington R, Perry B, Yao H, Strome R, Lieberburg I, Rommens J, Kim S, Schenk D, Fraser P, St. George Hyslop P, Selkoe DJ. Mutant presenilins of Alzheimer's disease increase production of 42-residue amyloid β-protein in both transfected cells and transgenic mice. Nat Med 3: 67–72, 1997. - PubMed

[10] Citron M, Westaway D, Xia W, Carlson G, Diehl T, Levesque G, Johnson-Wood K, Lee M, Seubert P, Davis A, Kholodenko D, Motter R, Sherrington R, Perry B, Yao H, Strome R, Lieberburg I, Rommens J, Kim S, Schenk D, Fraser P, St. George Hyslop P, Selkoe DJ. Mutant presenilins of Alzheimer's disease increase production of 42-residue amyloid β-protein in both transfected cells and transgenic mice. Nat Med 3: 67–72, 1997. - PubMed

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Translational research in central nervous system drug discovery

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Translational research in central nervous system drug discovery

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