Evaluation of a novel in vitro assay for assessing drug penetration into avascular regions of tumours

Phillips, Roger M.; Loadman, Paul M.; Cronin, B. P.

doi:10.1038/bjc.1998.355

Cited by 68 publications

(69 citation statements)

References 40 publications

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“…The compound of interest is added to one side of the MCL and its appearance on the other side is measured by appropriate analytical methods. Using this method, we and others have demonstrated limited penetration of several anticancer drugs through solid tissue (Phillips et al, 1998;Tunggal et al, 1999;Tannock et al, 2002).…”

mentioning

confidence: 92%

“…While these mechanisms are important, solid tumours have a poorly formed vasculature and an additional explanation for the lack of effectiveness of many anticancer drugs may be their limited ability to penetrate through multiple cell layers of the extravascular space to reach all of the tumour cells (Durand, 1989;Jain, 1990;Hicks et al, 1997;Phillips et al, 1998;Lankelma et al, 1999;Tunggal et al, 1999;Tannock et al, 2002). The multicellular layer (MCL) model allows tumour cells to be grown in culture with many properties of tumours in vivo, including desmosomes between cells and an extracellular matrix (Hicks et al, 1997;Minchinton et al, 1997;Phillips et al, 1998;Tunggal et al, 1999Tunggal et al, , 2000Cowan and Tannock, 2001;Tannock et al, 2002). Multicellular layers provide a simple, direct and quantitative means for measuring the penetration of drugs through solid tissue.…”

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confidence: 99%

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Inhibition of endosomal sequestration of basic anticancer drugs: influence on cytotoxicity and tissue penetration

Lee

Tannock

2006

Br J Cancer

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The basic drugs doxorubicin and mitoxantrone are known to be concentrated in acidic endosomes of cells. Here, we address the hypotheses that raising endosomal pH with the modifying agents chloroquine, omeprazole or bafilomycin A might decrease sequestration of anticancer drugs in endosomes, thereby increasing their cytotoxicity and availability for tissue penetration. Chloroquine, omeprazole and bafilomycin A showed concentration-dependent effects to raise endosomal pH, and to inhibit sequestration of doxorubicin in endosomes. Chloroquine and omeprazole but not bafilomycin A decreased the net uptake of doxorubicin into cells, but there was no significant effect on uptake of mitoxantrone. Omeprazole and bafilomycin A increased the cytotoxicity of the anticancer drugs for cultured cells, as measured in a clonogenic assay, whereas chloroquine had minimal effects on cytotoxicity despite reduced uptake of doxorubicin. Omeprazole but not chloroquine or bafilomycin A increased the penetration of anticancer drugs through multicellular layers of tumour tissue. We conclude that modifiers of endosomal pH might increase therapeutic effectiveness of basic drugs by increasing their toxicity and/or tissue penetration in solid tumours.

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confidence: 92%

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confidence: 99%

Inhibition of endosomal sequestration of basic anticancer drugs: influence on cytotoxicity and tissue penetration

Lee

Tannock

2006

Br J Cancer

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“…In vivo, it has demonstrated activity against colon, non-small cell lung, renal, melanoma and central nervous system tumor models (Hendricks et al, 1993). With early promising results, it has failed to show favorable phase II outcomes with Phillips et al citing its rapid pharmacokinetic elimination and poor penetration in avascular tissues (Phillips et al, 1998). In humans, Apaziquone's half-life is less than 10 minutes, via extra-hepatic metabolism by red blood cells, with its metabolites, EO5a, having decreased cytotoxicity (Schelens et al, 1994;Vainchtein et al, 2007).…”

Section: Apaziquonementioning

confidence: 99%

Chemoprevention and Novel Treatments of Non-Muscle Invasive Bladder Cancer

Luchey¹,

Jessop²,

Oliver³

et al. 2012

Bladder Cancer - From Basic Science to Robotic Surgery

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“…A recent study by Phillips et al (1998) describes a simple tissue culture assay for investigating the extravascular penetration properties of anticancer drugs. The reported assay is a modification of the method developed by ourselves (Cowan et al, 1996;Hicks et al, 1997) and Minchinton et al (1997) in which tumour cells are grown as multicellular layers (MCL) on commercially-available Teflon microporous membranes.…”

Section: Sirmentioning

confidence: 99%

“…We assume that the microporous Teflon membrane supporting the MCL is only 10 µm thick, with 100% porosity, and that there are no unstirred boundary layers. Even with these unrealistically favourable assumptions, the half-time for purely diffusive transfer between an unstirred donor compartment of 100 µl and a stirred receiving compartment of 600 µl (in the absence of an MCL) would be 30 min, whereas Figure 4 of Phillips et al (1998) shows a half-time of approximately 5 min. Using these same parameters but assuming efficient mixing in the donor compartment gives slightly faster transfer (half-time 3.5 min) than observed.…”

Section: Sirmentioning

confidence: 99%

Induction of cachexia in mice

Tisdale¹

1999

Br J Cancer

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REFERENCESCariuk P, Lorite MJ, Todorov PT, Field WN, Wigmore SJ and Tisdale MJ (1997) Induction of cachexia in mice by a product isolated from the urine of cachectic cancer patients. Br J Cancer 76: 606-613 Johnson V and Maack T (1989) Renal tubular handling of proteins and peptides. InTextbook of Nephrology, Massry SG and Glassock RJ (eds), pp. 97-102. Williams and Wilkins: Baltimore McDevitt TM, Todorov PT, Beck SA, Khan SH and Tisdale MJ (1995) Purification and characterization of a lipid-mobilizing factor associated with cachexiainducing tumours in mice and humans. Cancer Res 55: 1458-1463 Todorov PT, Cariuk P, McDevitt T, Coles B, Fearon K and Tisdale M (1996) Characterisation of a cancer cachectic factor. Nature 379: [739][740][741][742] Letters to the Editor Induction of cachexia in mice 1620British Journal of Cancer (1999) 79(9/10), 1620-1628© 1999 Cancer Research Campaign Article no. bjoc.1998 Sir,It is certainly correct that the kidney plays an important role in maintaining the concentration of proteins in the extracellular fluid. We have utilized urine as the starting point for the purification for the cachectic factor of M r 24 000 (Cariuk et al, 1997) because the kidney is so good at filtering out extraneous proteins, so that the purification process is greatly simplified. The reason for not using serum for the routine investigation of the cachectic factor is the low abundance compared with other proteins present. Even in cachexiainducing tumours the factor represents just 40 ppb of the total protein present (Todorov et al, 1996). This means that serum requires extensive pre-purification of the factor before it can be detected by Western blotting. However, we have no evidence that either serum, or indeed solid tumours, inducing cachexia contain higher molecular weights than the M r 24 000 form found in urine.The cachectic factor is a highly glycosylated sulphated glucoprotein (Todorov et al, 1997), which is resistant to digestion by pronase, trypsin, chymotrypsin or pepsin (Todorov et al, 1996). This may explain its apparent stability in the body. Although monoclonal antibodies to the factor attenuate the development of cachexia in experimental systems, the road ahead for the treatment of cachexia probably lies with low molecular weight inhibitors of the factor. One such inhibitor, eicosapentaenoic acid (EPA: Lorite et al, 1997), hasInduction of cachexia in mice Ð reply These low SMRs persist despite a smoking prevalence in the peninsula that is no more than the national average (Torbay and Plymouth Lifestyle Health Survey, 1993) and we have always been doubtful about any major effect of radon on these rates. We had looked forward to the results of the study by Darby et al (1998) as likely to give a definitive answer to this matter, but were disadvantaged by having to comment publicly on a press release by the authors in advance of the paper's publication. Now that we have read the paper we are concerned that the conclusions reached are not justified by the data published in the article. I...

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Evaluation of a novel in vitro assay for assessing drug penetration into avascular regions of tumours

Cited by 68 publications

References 40 publications

Inhibition of endosomal sequestration of basic anticancer drugs: influence on cytotoxicity and tissue penetration

Inhibition of endosomal sequestration of basic anticancer drugs: influence on cytotoxicity and tissue penetration

Chemoprevention and Novel Treatments of Non-Muscle Invasive Bladder Cancer

Induction of cachexia in mice

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