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Vol. 297, Issue 3, 1106-1112, June 2001
Department of Physiology and Pharmacology, University of Salamanca,
Salamanca, Spain
Cisplatin-bile acid derivatives belonging to the Bamet-family maintain
both liver organotropism and cytostatic activity. "In vivo"
toxicity and usefulness as chemotherapeutic agent versus liver tumors
of a novel drug, Bamet-UD2
[cis-diamminechlorocholylglycinate platinum (II)],
with enhanced "in vitro" cytostatic activity was investigated.
Using orthotopically implanted mouse Hepa 1-6 hepatoma in the liver of
Nude mice, the antitumor effect of Bamet-UD2 was compared with that of
a previously characterized compound of this family, Bamet-R2
[cis-diamminebis-ursodeoxycholate platinum(II)], and
cisplatin. Life span was significantly prolonged in mice treated with
both Bamets (Bamet-UD2 > Bamet-R2), compared with animals receiving saline or cisplatin. All these drugs inhibit tumor growth (Bamet-UD2 = cisplatin > Bamet-R2). However,
toxicity-related deaths only occurred under cisplatin treatment. Using
rats maintained in metabolic cages, organ-specific toxicity and drug
accumulation in tissues were investigated. The amount of both Bamets in
the liver was severalfold higher than that of cisplatin. By contrast, a
significantly higher amount of cisplatin in kidney and nerve was found.
In lung, heart, muscle, brain, and bone marrow the amount of drug was
small and also significantly lower in animals receiving Bamets. Signs
of neurotoxicity (altered nerve conduction velocity), nephrotoxicity
(increased serum urea and creatinine concentrations and decreased
creatinine clearance), and bone marrow toxicity (decreased platelet and
white blood counts) in animals treated with cisplatin but not with the
Bamets were found. These results indicate that, owing to strong
antitumor activity together with absence of side effects, Bamet-UD2 may
be useful in the treatment of liver tumors.
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