A rat retinal damage model predicts for potential clinical visual disturbances induced by Hsp90 inhibitors

In human trials certain heat shock protein 90 (Hsp90) inhibitors, including 17-DMAG and NVP-AUY922, have caused visual disorders indicative of retinal dysfunction; others such as 17-AAG and ganetespib have not. To understand these safety profile differences we evaluated histopathological changes and...

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Veröffentlicht in:Toxicology and applied pharmacology 2013-12, Vol.273 (2), p.401-409
Hauptverfasser: Zhou, Dan, Liu, Yuan, Ye, Josephine, Ying, Weiwen, Ogawa, Luisa Shin, Inoue, Takayo, Tatsuta, Noriaki, Wada, Yumiko, Koya, Keizo, Huang, Qin, Bates, Richard C., Sonderfan, Andrew J.
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Sprache:eng
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Zusammenfassung:In human trials certain heat shock protein 90 (Hsp90) inhibitors, including 17-DMAG and NVP-AUY922, have caused visual disorders indicative of retinal dysfunction; others such as 17-AAG and ganetespib have not. To understand these safety profile differences we evaluated histopathological changes and exposure profiles of four Hsp90 inhibitors, with or without clinical reports of adverse ocular effects, using a rat retinal model. Retinal morphology, Hsp70 expression (a surrogate marker of Hsp90 inhibition), apoptotic induction and pharmacokinetic drug exposure analysis were examined in rats treated with the ansamycins 17-DMAG and 17-AAG, or with the second-generation compounds NVP-AUY922 and ganetespib. Both 17-DMAG and NVP-AUY922 induced strong yet restricted retinal Hsp70 up-regulation and promoted marked photoreceptor cell death 24h after the final dose. In contrast, neither 17-AAG nor ganetespib elicited photoreceptor injury. When the relationship between drug distribution and photoreceptor degeneration was examined, 17-DMAG and NVP-AUY922 showed substantial retinal accumulation, with high retina/plasma (R/P) ratios and slow elimination rates, such that 51% of 17-DMAG and 65% of NVP-AUY922 present at 30min post-injection were retained in the retina 6h post-dose. For 17-AAG and ganetespib, retinal elimination was rapid (90% and 70% of drugs eliminated from the retina at 6h, respectively) which correlated with lower R/P ratios. These findings indicate that prolonged inhibition of Hsp90 activity in the eye results in photoreceptor cell death. Moreover, the results suggest that the retina/plasma exposure ratio and retinal elimination rate profiles of Hsp90 inhibitors, irrespective of their chemical class, may predict for ocular toxicity potential. •In human trials some Hsp90 inhibitors cause visual disorders, others do not.•Prolonged inhibition of Hsp90 in the rat eye results in photoreceptor cell death.•Retina/plasma ratio and retinal elimination rate are linked to toxicity potential.•Rat retinotoxic responses to individual Hsp90 inhibitors reflect clinical profiles.•Rodent modeling may be used to assess ocular risks of targeted Hsp90 compounds.
ISSN:0041-008X
1096-0333
DOI:10.1016/j.taap.2013.09.018