Synthesis and in vitro anthelmintic properties of some new dithiaarsanes.

PubMed

Loiseau, P M; Lubert, P; Wolf, J G

1999-11-01

Fifteen new trivalent organoarsenicals were synthesized and evaluated for anthelmintic properties on three in vitro models, infective larvae of the filaria Molinema dessetae, infective larvae of an intestinal nematode, Nippostrongylus brasiliensis and adults and larvae of Rhabditis pseudoelongata a free living nematode. On the M. dessetae model, the most active compound after a 24 h incubation period had an EC50 of 0.02 mumol/l (compound 3a). Twelve compounds had an EC50 lower than 1 mumol/l whereas potassium melarsonyl exhibited an EC50 of 45.6 mumol/l. After 7 days incubation time, compound 1d had an EC50 of 2 nmol/l. On the N. brasiliensis model, compound 1d was also the most efficient after a 4 day incubation period (EC50 of 1 mumol/l). This compound was 100 times more active than potassium melarsonyl used as a reference compound. Nevertheless, no compound had an EC50 less than 100 mumol/l on Rhabditis pseudoelongata. Concerning the effect of dithiol ligands on the anthelmintic activity of these trivalent organoarsenicals on M. dessetae and N. brasiliensis, 2,2'-dimercaptodiethyloxide was more efficient as dithiol ligand than 1,3-dimercaptopropane which was more efficient than 1,2-dimercaptoethane. Moreover, the para-amino haptophore was more efficient than the melaminyl haptophore. These results showed that the use of new dithiol ligands for trivalent arsenicals enhanced greatly the anthelmintic activity compared with potassium melarsonyl.

Modulation of the electronic structure and the Ni–Fe distance in heterobimetallic models for the active site in [NiFe]hydrogenase

PubMed Central

Zhu, Wenfeng; Marr, Andrew C.; Wang, Qiang; Neese, Frank; Spencer, Douglas J. E.; Blake, Alexander J.; Cooke, Paul A.; Wilson, Claire; Schröder, Martin

2005-01-01

Reaction of the mononuclear Ni(II) thiolate complexes [Ni(L)] [L, L1, H2L1, bis(2-mercaptoethyl)-1,2-dimercaptoethane; L2, H2L2, N,N′-dimethyl-N,N′-bis(2-mercaptoethyl)-bis(aminoethyl)sulfide] with [FeCp(CO)2I] gives the dithiolate-bridged heterobimetallic species, [Ni(L1)FeCp(CO)]PF6, 1, and [Ni(L2)FeCp]I, 2, respectively. Binding of a Fe(CO)3 fragment via reaction of square-planar [Ni(pdt)(dppe)] (dppe, 1,2-diphenylphosphinoethane; pdt2–, 1,3-propanedithiolate) with Fe3(CO)12 or [Fe(CO)3(BDA)] (BDA, benzylidene acetone) affords diamagnetic [(dppe)Ni(μ-pdt)Fe(CO)3], 3, in which the Ni(II) center is bound tetrahedrally to two thiolate S-donors and to two P-donors. The complex [(dppe)Ni(μ-pdt)Fe(CO)3], 3, reacts in solution via rearrangement to afford [(OC)Ni(μ-dppe)(μ-pdt)Fe(CO)2], 4, in which one P-donor of dppe is bound to Ni and the other to Fe, and a CO ligand has transferred from Fe to Ni. Additionally, the syntheses of 3 and 4 afford the side products [(dppe)Ni(CO)2] and [(OC)3Fe(pdt)Fe(CO)3] together with the trinuclear species [(dppe)(CO)Fe(μ-CO)(μ-pdt)Fe(μ-pdt)Fe(CO)3], 5. Reaction of [Ni(pdt)(dppe)] with [FeCp(CO)2I] in CH2Cl2 affords two products [(dppe)Ni(μ-pdt)FeCp(CO)]PF6, 6, and [(dppe)Ni(pdt)(μ-I)Ni(dppe)]PF6, 7. The complexes 2, 3, and 4 show Ni–Fe distances of 2.539(4), 2.4666(6), and 2.4777(7) Å, respectively, with relatively acute dihedral angles of 79.5–81.8° for the Ni–S2-Fe bridge, thus mimicking the shortened Ni...Fe distance (2.5 Å) and the acute dihedral angle of the Ni–S2–Fe moiety observed in certain active forms of [NiFe]hydrogenase. The role of direct Ni–Fe bonding in these complexes is discussed and linked to electronic structure calculations on [(dppe)Ni(pdt)Fe(CO)3], 3, which confirm the presence of a bent Ni(dz2)-Fe(dz2) σ-bond in a singlet ground state. PMID:16352727