Melanoma primario maligno variedad rabdoide. A Propósitode un caso / Malignant primary melanoma rhabdoid variety. about a case

Resumen El melanoma primariovariedad rabdoide es unapresentación pocofrecuente.Reconocido como un subtipo histopatológico distinto de melanoma maligno generalmente observado en tumores metastásicos o recurrentes.El diagnóstico definitivo requiere el estudio de inmunomarcación y la identificación de células neoplásicas con marcadores melanocíticos. Clínicamente se han reportado mayormente de tipo nodular y amelanótico.

Summary Rhabdoid melanoma has been recognized as a histopathological subtype of malignant melanoma. It generally presents as a recurrent tumor, so its presentation as a primary lesion is infrecuent.Definitive diagnosis requires the study of immunostaining and the identification of neoplastic cells with melanocytic markers. Clinically, mostly nodular and amelanotic types have been reported.

Cytotoxicity evaluation of natural coptisine and synthesis of coptisine from berberine.

The crude extract (80% MeOH in water) of Chelidonii herba exhibited very interesting cytotoxicity against brine shrimp (Artemia salina Leach) nauplii and cultured human tumour cell in vitro, the colon carcinoma HT 29 (144 h treatment). Fractionation of the crude extract and bioassay-guided procedures showed that the cytotoxic and the antitumour activities were concentrated in the basic extract. On the basis of IR, MS and 1H NMR the compound responsible of the cytotoxic activity was determined to be coptisine. Cytotoxicity evaluation of coptisine was next extended to a panel of human and murine cell lines in comparison with the established antitumour drugs mitoxantrone, doxorubicin (Dx) and cisplatin (CDDP). Coptisine was cytotoxic on LoVo and HT 29 and less potent on L-1210, and it was partially crossresistant on the human tumour colon cell line resistant to Dx, LoVo/Dx, whereas it was not significantly crossresistant on the murine leukaemia cell line resistant to CDDP, L-1210/CDDP. Coptisine alkaloid was then synthesised in gram amount from commercial berberine. A four-step synthetic route was elaborated. The overall yield was about 8-10%. The structural identity of synthetic coptisine was verified by IR and NMR methods. A comparison of the cytotoxic effects on the human tumour colon cell line LoVo and on the murine leukaemia L1210 showed, for both natural and synthetic coptisines, a comparable cytotoxic activity more evident against HT 29 cell line and LoVo cell line, while the activity was lower against the L1210 cell line.

Comparison of cytotoxicity and cellular accumulation of polynuclear platinum complexes in L1210 murine leukemia cell lines.

The antitumor activity of the trinuclear Phase I clinical agent, BBR3464, is matched by that of polyamine-linked dinuclear complexes. The cytotoxicity and cellular accumulation of three polynuclear platinum complexes: [¿trans-PtCl(NH3)2¿2 mu-¿trans-Pt(NH3)2(H2N(CH2)6-NH2)2¿]4+ (BBR3464), [¿trans-PtCl(NH3)2¿2(H2N(CH2)3NH2(CH2)4NH2)]3+ (BBR3571), and [¿trans-PtCl(NH3)2¿2(H2N(CH2)6-NH2)]2+ (BBR3005), were studied in a series of murine L1210 cell lines and compared with cisplatin. Besides murine L1210 cell lines sensitive (/0) and resistant (/DDP) to cisplatin, the efficacy of the compounds in a cell line rendered resistant to BBR3464 (/3464) was examined. Finally, to examine possible uptake pathways of these novel charged complexes, cytotoxicity in a cell line resistant to the polyamine synthesis inhibitor, methylglyoxal-bis(guanylhydrazone) (/MGBG), was studied. Cytotoxicity profiles of BBR3571 most closely matched that of BBR3464. Both agents showed significantly reduced cytotoxicity in L1210/ BBR3464. The cytotoxicity of neither agent was affected by the polyamine uptake-deficient cell line and indeed both complexes showed significantly enhanced cytotoxicity in L1210/MGBG relative to wild-type L1210/0. The cellular uptake of both BBR3464 and BBR3571 was enhanced in L1210/DDP. These studies suggest that the chemical feature of a diamine linker containing an internal charge contributes significantly to the anticancer profiles of both the trinuclear platinum complex, BBR3464, which incorporates a charged platinum into a diamine linker, and the dinuclear platinum complex, BBR3571, which incorporates only a naturally occurring polyamine as diamine linker.

Cytotoxicity, cellular uptake and DNA binding of the novel trinuclear platinun complex BBR 3464 in sensitive and cisplatin resistant murine leukemia cells.

BBR 3464 is a novel trinuclear platinum anticancer agent designed on the hypothesis that new clinically useful platinum based anticancer agents should have novel structures unrelated to those of agents currently used in the clinic. BBR 3464 shows outstanding cytotoxicity both against sensitive (L1210) and cisplatin (CDDP) resistant (L1210/CDDP) murine leukemia cell lines. In fact, BBR 3464 is 30 times more cytotoxic than CDDP against the L1210 cell line and also shows a complete lack of cross-resistance in L1210/CDDP (resistance index 0.8). BBR 3464 and CDDP cellular uptake in L1210 and L1210/CDDP eells and binding to nuclear DNA were studied after incubation with 3.34 microM BBR 3464 and 66.7 microM CDDP, respectively, for up to 4 hours with 133.4 and 266.8 microM of CDDP and 6.68, 13.36 microM of BBR 3464 for 2 hours to determine concentration-cellular uptake and concentration-DNA binding relationships. CDDP and BBR 3464 cellular uptake and their extent of binding to DNA increased as function of time and in a concentration dependent manner in both cell lines. CDDP uptake and binding to DNA were higher in L1210 eells than in L1210/CDDP cells whereas BBR 3464 uptake and binding to DNA were similar in both cell lines. In L1210/CDDP murine leukemia cells BBR 3464 seems to overcome the CDDP cross-resistance related to impaired accumulation and reduction of binding to DNA.

Cardiovascular activities of the new potent and long-lasting antihypertensive calcium entry blocker (+-)-3-ethyl,5-methyl,2- ([2-(formylamino)-ethyl]- thiomethyl)-6-methyl-4-(3-nitrophenyl)-1,4-dihydropyridine-3,5-dicar box ylate.

BBR 2160 ((+-)3-ethyl,5-methyl,2-([2-(formylamino)-ethyl]- thiomethyl)-6-methyl-4-(3-nitrophenyl)-1,4-dihydropyridine-3,5-dicarb oxy late, CAS 118587-22-7) is a new calcium entry blocker (CEB) which completely displaces 3H-nitrendipine from binding sites, is 10 times more potent than amlodipine (A) and equiactive with nifedipine (N). On the rat aorta contracted by 10 mmol/l Ca++, or 45 mmol/l K+, BBR 2160 shows higher CEB activity than N and A, achieving the maximum effect on voltage operated channels-induced contractions in 6 h, while N takes about 2 h. BBR 2160, N and A negatively affect the chronotropism on spontaneously beating, and inotropism on electrically driven guinea pig atria, respectively. In vitro BBR 2160 has marked vasoselectivity. Administered orally to conscious hypertensive rats (SHR) and renal hypertensive dogs (RHD), it caused a dose-dependent reduction in systolic blood pressure with a relatively slow onset, peak effect at 3-6 h and duration over 6 h. BBR 2160 and A have more pronounced activity on SHR than on normotensive rats (NR) (ED20 NR/SHR 3.3 for both compounds), while the antihypertensive and hypotensive activities of N are in the same dose-range (ED20 NR/SHR 1.3). No tolerance develops to the antihypertensive effects of BBR 2160 after five days' dosing up to 3.2 mg/kg in SHR and 1 mg/kg in RHD. In instrumented conscious normotensive dogs BBR 2160, N and A mostly lower diastolic blood pressure and total peripheral resistance, and do not increase total oxygen consumption.(ABSTRACT TRUNCATED AT 250 WORDS)