Inhalation delivery dramatically improves the efficacy of topotecan for the treatment of local and distant lung cancer

Inhalation delivery dramatically improves the efficacy of topotecan for the treatment of local and distant lung cancer

Topotecan is potent anti-cancer drug approved for various malignancies but hematopoietic toxicities undermine its wider application and use of its most effective dose. This study aims to improve these limitations through inhalation-delivery. The pharmacokinetics, efficacy, and toxicity of 2–5 times...

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Hauptverfasser: Kuehl, Philip J., Yingling, Christin M., Dubose, Devon, Burke, Michael, Revelli, David A., Chen, Wenshu, Dye, Wendy W., Belinsky, Steven A., Tessema, Mathewos
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Biochemistry
Biological Sciences not elsewhere classified
Biotechnology
Cancer
Cell Biology
Chemical Sciences not elsewhere classified
Developmental Biology
FOS: Biological sciences
Genetics
Medicine
Molecular Biology
Pharmacology
Space Science
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creator Kuehl, Philip J.
Yingling, Christin M.
Dubose, Devon
Burke, Michael
Revelli, David A.
Chen, Wenshu
Dye, Wendy W.
Belinsky, Steven A.
Tessema, Mathewos
description Topotecan is potent anti-cancer drug approved for various malignancies but hematopoietic toxicities undermine its wider application and use of its most effective dose. This study aims to improve these limitations through inhalation-delivery. The pharmacokinetics, efficacy, and toxicity of 2–5 times lower inhalation doses of topotecan dry-powder were compared with the standard intravenous (IV) delivery once/twice-a-week. Human-derived EGFR-mutant (H1975), KRAS-mutant (A549), and EGFR/KRAS wild-type (H358) orthotopic and distant lung tumors were evaluated in murine models. Inhalation of 1 mg/kg topotecan significantly improved the half-life and drug exposure (area under the curve, AUC) compared to 5 mg/kg via IV-delivery. AUCs (h*ng/mL) for inhaled/IV topotecan in plasma, lung, liver, and brain were, 831/888, 60,000/1080, 8380/4000, and 297/15, respectively; while the half-life was also greatly increased in these tissues. The average lung tumor burden of H358-derived tumors was reduced from 15.0 g to 8.4 g (44%) in rats treated once-a-week with 2 mg/kg IV and 1.8 g (88%) with 1 mg/kg inhaled topotecan, corroborating previous findings using A549- and H1975-derived orthotopic lung tumors. Importantly, inhaled topotecan showed superior efficacy in suppressing lung tumors at distant sites. The growth of H1975- and H358-derived subcutaneous xenografts were completely arrested and A549-derived tumors were significantly reduced in mice treated twice-a-week with 1 mg/kg inhaled topotecan compared to a minor (H1975 and H358) or no reduction (A549) with twice-a-week 5 mg/kg IV topotecan.
doi_str_mv 10.6084/m9.figshare.14435644
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The average lung tumor burden of H358-derived tumors was reduced from 15.0 g to 8.4 g (44%) in rats treated once-a-week with 2 mg/kg IV and 1.8 g (88%) with 1 mg/kg inhaled topotecan, corroborating previous findings using A549- and H1975-derived orthotopic lung tumors. Importantly, inhaled topotecan showed superior efficacy in suppressing lung tumors at distant sites. The growth of H1975- and H358-derived subcutaneous xenografts were completely arrested and A549-derived tumors were significantly reduced in mice treated twice-a-week with 1 mg/kg inhaled topotecan compared to a minor (H1975 and H358) or no reduction (A549) with twice-a-week 5 mg/kg IV topotecan.</abstract><pub>Taylor &amp; Francis</pub><doi>10.6084/m9.figshare.14435644</doi><oa>free_for_read</oa></addata></record>
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subjects Biochemistry
Biological Sciences not elsewhere classified
Biotechnology
Cancer
Cell Biology
Chemical Sciences not elsewhere classified
Developmental Biology
FOS: Biological sciences
Genetics
Medicine
Molecular Biology
Pharmacology
Space Science
title Inhalation delivery dramatically improves the efficacy of topotecan for the treatment of local and distant lung cancer
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