Maria Grandi

Structure-activity relationship of novel distamycin a derivatives : synthesis and antitumor activity

Abstract Synthesis and biological evaluation of a group of distamycin A derivatives bearing new alkylating moietis is presented.

Antitumor activity of FCE 26644 a new growth-factor complexing molecule

FCE 26644, or 7,7′-(carbonyl-bis[imino-N-methyl-4, 2 pyrrole carbonyl-imino{N-methyl-4, 2-pyrrole}carbonylimino])-bis-(1, 3-naphthalene)disulfonic acid, belongs to the newly synthesized class of sulfonated derivatives of distamycin A. FCE 26644 is a noncytotoxic molecule capable of inhibiting the binding of basic fibreblast growth factor (bFGF), platelet-derived growth factor (PDGFβ) and interleukin 1 (IL-7) to their receptors and to block bFGF-induced vascularization in vivo as well as neovascularization in the chorioallantoic membrane. FCE 26644 and suramin, a compound possessing the same terminal half-life (t1/2) in mice and, presumably, the same mode of action, inhibit the growth of solid murine tumors, M5076 reticulosarcoma, and MXT and S180 fibrosarcoma and are inactive against B16F10 melanoma. The activity of FCE 26644 was constantly observed at nontoxic doses, at variance with suramin. FCE 26644 was also found to maintain activity against M5076 resistant to cyclophosphamide and to be equally active against UV 2237 and UV 2237/ADR fibrosarcoma.

Endothelial cells overexpressing basic fibroblast growth factor (FGF-2) induce vascular tumors in immunodeficient mice

Basic fibroblast growth factor (FGF-2) is expressed in vascular endothelium during tumor neovascularization and angioproliferative diseases, including vascular tumors and Kaposis sarcoma (KS). We have investigated the in vivo biological consequences of endothelial cell activation by endogenous FGF-2 in a mouse aortic endothelial cell line transfected with a retroviral expression vector harboring a human FGF-2 cDNA and the neomycin resistance gene. FGF-2 transfectants, named pZipbFGF2-MAE cells, caused the rapid growth of highly vascularized, non-infiltrating tumors when injected in nude mice. In contrast, lesions grew poorly when cells were injected in immunocompetent syngeneic animals. Histologically, the tumors had the appearance of hemangioendothelioma with spindled areas resembling KS and with numerous CD31+ blood vessels and lacunae. Southern blot analysis of tumor DNA, as well as disaggregation of the lesion followed by in vitro cell culture, revealed that less than 10% of the cells in the tumor mass retain FGF-2 overexpression and neomycin resistance at 6–8 weeks post-injection. Nevertheless, in vitro G418 selection allowed the isolation from the tumor of a FGF-2-overexpressing cell population showing biochemical and biological characteristics similar to those of pZipbFGF2-MAE cells, including the capacity to originate vascular lesions when re-injected in nude mice. To evaluate the effect of angiostatic compounds on the growth and vascularization of pZipbFGF2-MAE cell-induced lesions, nude mice were treated weekly (100mg/kg, i.p.) with the angiostatic sulfonated distamycin A derivative 2,2′-(carbonyl-bis-[imino-N-methyl-4,2-pyrrole carbonyl-imino-{N-methyl-4,2-pyrrole}carbonylimino])-bis-(1,5-naphthalene) disulfonic acid (PNU 153429). The results demonstrate that PNU 153429 inhibits the growth of the lesions and causes a ∼50% decrease in CD31+ microvessel density. In conclusion, the data indicate that FGF-2-overexpressing endothelial cells cause vascular lesions in immunodeficient mice which may represent a novel model for opportunistic vascular tumors suitable for the evaluation of angiostatic compounds.

The antitumor efficacy of cytotoxic drugs is potentiated by treatment with PNU 145156E, a growth-factor-complexing molecule.

Abstract PNU 145156E (formerly FCE 26644) is a noncytotoxic molecule whose antitumor activity is exerted through the formation of a reversible complex with growth/angiogenic factors, thus inhibiting their induction of angiogenesis. We studied in vitro and in vivo the activity of PNU145156E in combination with the four cytotoxic drugs doxorubicin, cyclophosphamide, methoxymorpholinyldoxorubicin (MMDX, FCE 23762, PNU152243), and 9-aminocamptothecin against M5076 murine reticulosarcoma. In vitro, PNU 145156E did not modify the cytotoxicity of the four drugs or the cell-cycle block induced by doxorubicin. In vivo, at the optimal dose of each compound, the antitumor activity was significantly increased in all combinations, with no associated increase in general toxicity being observed. In healthy mice treated with cyclophosphamide or doxorubicin the association with PNU 145156E did not enhance the myelotoxic effect induced by the two cytotoxics. These results indicate that two drugs affecting solid tumor growth through two different mechanisms – growth factor blockage and cell proliferation – can be combined, resulting in increased antitumor efficacy with no additive toxicity.

Growth-inhibitory properties of novel anthracyclines in human leukemic cell lines expressing either Pgp-MDR or at-MDR

SummaryThe objective of the experiments reported in this paper was the identification of promising anthracycline analogs on the basis of lack of cross-resistance against tumor cells presenting either P-glycoprotein multidrug resistance (Pgp-MDR) or the altered topoisomerase multidrug resistant (at-MDR) phenotype.Differently modified anthracycline analogs known to be active against MDR cells were assayedin vitro against CEM human leukemic cells, and the sublines CEM/VLB100 and CEM/VM-1 exhibiting respectively the Pgp-MDR and the at-MDR phenotype. Two classes of molecules, in which the -NH2 group in C-3′ position is substituted with a morpholino, methoxymorpholino (morpholinyl-anthracycline), or an alkylating moiety, present equivalent efficacy in the drug-sensitive and the two drug-resistant sublines. These results indicate that such molecules may exert their cytotoxic effect through a mode of action different from that of “classical” anthracyclines and is not mediated through topoisomerase II inhibition. Both molecules represent novel concepts in the field of new anthracyclines derivatives.

Synthesis and antitumor activity of a new class of water soluble camptothecin derivatives

A new family of water soluble camptothecin derivatives is described. Their synthesis, in vitro cytotoxicity, and in vivo antitumor activity is reported. Compounds 5a and 5c displayed excellent in vivo antitumor activity both ip and iv.

Morpholinylanthracyclines: cytotoxicity and antitumor activity of differently modified derivatives

SummaryThe relationship between different chemical modifications on morpholinylanthracyclines and their ability to overcome multidrug resistance (MDR) has been evaluated testing all compounds in vitro on LoVo and LoVo/DX human colon adenocarcinoma cells and in vivo on disseminated P388 and P388/DX murine leukemias.Results obtained led us to the following conclusions: 1) the insertion of the morpholinyl or the methoxymorpholinyl group on position 3′ of the sugar moiety confers the ability to overcome MDR in vitro and in vivo; conversely, 4′ morpholinyl compounds are effective on MDR cells only in vitro and result inactive in vivo on DX-resistant leukemia; 2) all chemical modifications performed on 3′ morpholinyl or methoxymorpholinyl derivatives, that is substitutions on the aglycone or on position 2 of the morpholino ring, do not interfere with the activity of the compounds: all derivatives present in fact the same efficacy on sensitive and resistant models.It is concluded that position 3′ in the sugar moiety plays a crucial role in the ability of morpholinylanthracyclines to overcome MDR.

Biological Data and Docking Experiments of bFGF-Sulfonated Distamycin a Derivative Complex

A series of sulfonated derivatives of Distamycin A have been synthesized with the objective of identifying novel compounds able to complex bFGF, which is involved in tumor angiogenesis, and consequently to block the angiogenic process.