The distribution and retention of paclitaxel and doxorubicin in multicellular layer cultures

Authors
Lee, Joo HoNa, KunSong, Soo-ChangLee, JaehwiKuh, Hyo-Jeong
Issue Date
2012-04
Publisher
SPANDIDOS PUBL LTD
Citation
ONCOLOGY REPORTS, v.27, no.4, pp.995 - 1002
Abstract
Limited distribution of anticancer drugs has been recognized as a significant hurdle to efficacy. We investigated a detailed penetration/distribution profile of paclitaxel-rhodamine (PTX-rd) and doxorubicin (DOX) in multicellular layer (MCL) cultures of human cancer cells as an in vitro model for avascular regions of solid tumors. MCLs were exposed to drugs and fluorescent images of frozen sections were acquired for determination of drug penetration into MCL under various exposure conditions. PTX-rd and DOX showed drastically different profiles of penetration. DOX showed full penetration after I h and accumulation over 3 h, whereas PTX-rd showed slow and limited penetration, with accumulation only within the top 20% of layers by 2 h and insignificant penetration even at 72 h. Drug retention in MCL was more dependent on drug concentration, rather than exposure time, i.e., drug distribution increased by 6.3- and 2.5-fold for PTX-rd and DOX, respectively, when exposed to higher concentrations under comparable AUC exposure (1 mu M x 24 h vs. 50 mu M x 0.5 h). Anti-proliferative activity of PTX and DOX in MCL, as determined by cell cycle analysis, was minimal and may be attributed, at least in part, to their limited distribution in multicellular cultures. Overall, we demonstrated that penetration and retention of PTX and DOX in MCL was not only concentration- and time-dependent, but also schedule-dependent. It is suggested that slow releasing formulations or a slow infusion regimen may not necessarily be desirable, especially for PTX, due to insufficient penetration and accumulation which may result from a low local concentration at the target site.
Keywords
SOLID TUMORS; ANTICANCER DRUGS; EXTRAVASCULAR TRANSPORT; P-GLYCOPROTEIN; LIMITED PENETRATION; TISSUE PENETRATION; DNA INTERCALATOR; RESISTANCE; SPHEROIDS; MODEL; SOLID TUMORS; ANTICANCER DRUGS; EXTRAVASCULAR TRANSPORT; P-GLYCOPROTEIN; LIMITED PENETRATION; TISSUE PENETRATION; DNA INTERCALATOR; RESISTANCE; SPHEROIDS; MODEL; cell cycle distribution; doxorubicin; drug penetration; multicellular layer; paclitaxel
ISSN
1021-335X
URI
https://pubs.kist.re.kr/handle/201004/129361
DOI
10.3892/or.2012.1650
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KIST Article > 2012
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