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Novel Taxol Formulations: Preparation and Characterization of Taxol-Containing Liposomes (1994)

Sharma, Amarnath ; Straubinger, Robert M.

Springer

Pharmaceutical research 11 (1994), S. 889-896

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ISSN: 1573-904X

Keywords: taxol ; liposomes ; lyophilization

Source: Springer Online Journal Archives 1860-2000

Topics: Chemistry and Pharmacology

Notes: Abstract Taxol is a promising anticancer agent under investigation for therapy of ovarian, breast, colon, and head and neck cancer. One problem associated with the administration of taxol is its low solubility in most pharmaceutically-acceptable solvents; the formulation used clinically contains Cremophor EL® (polyethoxylated castor oil) and ethanol as excipients, which cause serious adverse effects. To eliminate this vehicle and possibly improve the antitumor efficacy of taxol, we have formulated taxol in liposomes of various compositions. Liposome formulations containing taxol and phospholipid in the molar ratio 1:33 were prepared from phosphatidylglycerol (PG) and phosphatidylcholine (PC) (1:9 molar ratio), and were physically and chemically stable for more than 2 months at 4°C, or for 1 month at 20°C. A method of producing taxol-liposomes by lyophilization has been developed, by which large batches can be prepared reproducibly in a ‘pharmaceutically rational’ manner. Taxol-liposomes retained the growth-inhibitory activity of the free drug in vitro against a variety of tumor cell lines. In mice, taxol-liposomes were well-tolerated when given in bolus doses by both iv and ip routes. The Maximum Tolerated Dose (MTD) was 〉200 mg/kg; it exceeded that of free taxol, which had a MTD of 30 mg/kg by iv or 50 mg/kg by ip administration. Free taxol administered in the Cremophor vehicle was toxic at doses 〉30 mg/kg, as was the equivalent volume of vehicle without drug. Taxol-liposomes may prove to be useful not only for eliminating the toxic effects attributed to the Cremophor vehicle, but also for providing opportunities to widen the taxol therapeutic index through alterations in route and schedule of administration.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1023/A:1018994111594

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Modulation of Human Ovarian Tumor Cell Sensitivity to N-(Phosphonacetyl)-L-Aspartate (PALA) by Liposome Drug Carriers (1993)

Sharma, Amarnath ; Straubinger, Ninfa L. ; Straubinger, Robert M.

Springer

Pharmaceutical research 10 (1993), S. 1434-1441

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ISSN: 1573-904X

Keywords: N-phosphonacetyl-L-aspartate (PALA) ; liposome ; endocytosis ; human ovarian carcinoma ; aspartate transcarbamylase

Source: Springer Online Journal Archives 1860-2000

Topics: Chemistry and Pharmacology

Notes: Abstract Carrier-based formulations of cytotoxic agents may be highly efficacious for intracavitary therapy of malignancies which reside in or metastasize to the peritoneal cavity. N-(Phosphonacetyl)-L-aspartic acid (PALA) is a transition-state inhibitor of aspartate transcarbamylase which has shown enhanced activity against several cell lines upon encapsulation in liposomes. We have examined the growth inhibitory effects of PALA-containing liposome formulations against four human ovarian cancer cell lines (Ovcar-3, Hey-lb, A90, and A121a) that have significantly different growth characteristics. With the optimal liposome formulation defined in the present studies, the potency of encapsulated PALA was 22- to 570-fold greater than that of free PALA, depending on the cell line. Control liposomes containing buffer, rather than PALA, did not inhibit cell growth. Fluorescence studies of liposome–cell interaction suggest that high liposome negative surface charge density and high phase transition temperature increase both cellular association and retention of liposome contents. Briefer exposure of tumor cells to treatment accentuates the advantage of liposome formulations; on Hey-lb cells, the cytostatic effect of 1-hr exposure to PALA-liposomes is 900-fold greater than is the equivalent exposure to free PALA. The considerable increase in in vitro potency of PALA–liposome formulations, coupled with potential pharmacokinetic advantages in vivo (i.e., intraperitoneal retention of liposome-associated drug versus rapid clearance of free PALA), suggests the possibility of enhanced antitumor activity of liposome-encapsulated PALA for both single-agent and combination chemotherapy.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1023/A:1018963006703

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