2016
DOI: 10.1002/chem.201603206
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Thiomaltol‐Based Organometallic Complexes with 1‐Methylimidazole as Leaving Group: Synthesis, Stability, and Biological Behavior

Abstract: Thiomaltol, a potential S,O-coordinating molecule, has been utilized for the complexation of four different organometallic fragments, yielding the desired Ru , Os , Rh , and Ir complexes having a "piano-stool" configuration. In addition to the synthesis of these compounds with a chlorido leaving group, the analogous 1-methylimidazole derivatives have been prepared, giving rise to thiomaltol-based organometallics with enhanced stability under physiological conditions. The organometallic compounds have been char… Show more

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Cited by 35 publications
(54 citation statements)
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References 50 publications
(102 reference statements)
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“…As complex stability is another fundamental aspect for sufficient anticancer activity or lack thereof, a stable coordination site might prevent premature reaction with biomolecules and subsequent inactivation. This has been demonstrated by the replacement of O,O ‐chelating pyrone complexes by their S,O ‐derivatives yielding IC 50 values in the low to sub‐micromolar range . On the other hand, ruthenium(II) pyridone complexes showed increased stability in aqueous solution, which can be explained by their stronger pseudo aromatic character enhancing complex stability by at least 1.5 log units .…”
Section: Introductionsupporting
confidence: 90%
“…As complex stability is another fundamental aspect for sufficient anticancer activity or lack thereof, a stable coordination site might prevent premature reaction with biomolecules and subsequent inactivation. This has been demonstrated by the replacement of O,O ‐chelating pyrone complexes by their S,O ‐derivatives yielding IC 50 values in the low to sub‐micromolar range . On the other hand, ruthenium(II) pyridone complexes showed increased stability in aqueous solution, which can be explained by their stronger pseudo aromatic character enhancing complex stability by at least 1.5 log units .…”
Section: Introductionsupporting
confidence: 90%
“…The thiomaltol ligand ( L2 ) is known to be highly cytotoxic by itself . While the activities in SW480 and CH1/PA‐1 cell lines of complex 2 are within the same range as that of the free ligand ( L2 ), the activity of 2 in the A549 cell line is significantly greater (4 to 5 times) when compared with the free ligand L2 .…”
Section: Resultsmentioning
confidence: 99%
“…The thiomaltol ligand (L2)i sk nown to be highly cytotoxic by itself. [46] While the activities in SW480 and CH1/PA-1 cell lines of complex 2 are within the same range as that of the free ligand (L2), the activity of 2 in the A549 cell line is significantly greater (4 to 5t imes) when compared with the free ligand L2.T his greatest activity of 2 in the broadly chemore-sistantA 549c ell line indicates am ode of action very different to that of known cytotoxic metal complexes. Moreover,a sf ar as we know,t his compound is the first active molybdenum complex bearing at rispyrazolylborate ligand and, the most active molybdenum complex to the best of our knowledge.…”
Section: Cytotoxic Activitymentioning
confidence: 89%
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