The Caco-2 cellular monolayer is a widely accepted in vitro model to predict human permeability but suffering from several and critical limitations. Therefore, some alternative cell cultures to mimic the human intestinal epithelium, as closely as possible, have been developed to achieve more physiological conditions, as the Caco-2/HT29-MTX coculture and the triple Caco-2/HT29-MTX/Raji B models. In this work the permeability of 12 model drugs of different Biopharmaceutical Classification System (BCS) characteristics, in the coculture and triple coculture models was assessed. Additionally, the utility of both models to classify compounds according to the BCS criteria was scrutinized. The obtained results suggested that the coculture of Caco-2/HT29-MTX and the triple coculture of Caco-2/HT29-MTX/Raji B were useful models to predict intestinal permeability and to classify the drugs in high or low permeability according to BCS. Moreover, to study thoroughly the transport mechanism of a specific drug, using a more complex model than Caco-2 monocultures is more suitable because coculture and triple coculture are more physiological models, so the results obtained with them will be closer to those obtained in the human intestine.
New
organometallic gold(III) and platinum(II) complexes containing
iminophosphorane ligands are described. Most of them are more cytotoxic
to a number of human cancer cell lines than cisplatin. Cationic Pt(II)
derivatives 4 and 5, which differ only in
the anion, Hg2Cl62– or PF6– respectively, display almost identical
IC50 values in the sub-micromolar range (25–335-fold
more active than cisplatin on these cell lines). The gold compounds
induced mainly caspase-independent cell death, as previously reported
for related cycloaurated compounds containing IM ligands. Cycloplatinated
compounds 3, 4, and 5 can also
activate alternative caspase-independent mechanisms of death. However,
at short incubation times cell death seems to be mainly caspase dependent,
suggesting that the main mechanism of cell death for these compounds
is apoptosis. Mercury-free compound 5 does not interact
with plasmid (pBR322) DNA or with calf thymus DNA. Permeability studies
of 5 by two different assays, in vitro Caco-2 monolayers and a rat perfusion model, have revealed a high
permeability profile for this compound (comparable to that of metoprolol
or caffeine) and an estimated oral fraction absorbed of 100%, which
potentially makes it a good candidate for oral administration.
A new trinuclear copper(II) complex has been synthesized and structurally characterized: [Cu(3)(L)(2)(HCOO)(2)(OH)(2)](infinity) (HL = (N-pyrid-2-ylmethyl)benzenesulfonylamide). In the complex, the central copper ion is six-coordinated. The coordination spheres of the terminal copper atoms are square pyramidal, the apical positions being occupied by a sulfonamido oxygen of the contiguous trimer. As a consequence, the complex can be considered a chain of trinuclear species. The three copper atoms are in a strict linear arrangement, and adjacent coppers are connected by a hydroxo bridge and a bidentate syn-syn carboxylato group. The mixed bridging by a hydroxide oxygen atom and a bidentate formato group leads to a noncoplanarity of the adjacent basal coordination planes with a dihedral angle of 61.4(2) degrees. Susceptibility measurements (2-300 K) reveal a strong ferromagnetic coupling, J = 79 cm(-1), leading to a quartet ground state that is confirmed by the EPR spectrum. The ferromagnetic coupling arises from the countercomplementarity of the hydroxo and formato bridges. The trinuclear complex cleaves DNA efficiently, in the presence of hydrogen peroxide/sodium ascorbate. tert-Butyl alcohol and sodium azide inhibit the oxidative cleavage, suggesting that the hydroxyl radical and singlet oxygen are involved in the DNA degradation.
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