Efficient hydrolytic cleavage of plasmid DNA by chloro-cobalt(ii) complexes based on sterically hindered pyridyl tripod tetraamine ligands: synthesis, crystal structure and DNA cleavage

Massoud, Salah S.; Perkins, R. S.; Louka, Febee R.; Xu, Wu; Roux, Anne Le; Dutercq, Quentin; Fischer, Roland; Mautner, Franz-Andreas; Handa, Makoto; Hiraoka, Yuya; Kreft, Gabriel L.; Bortolotto, Tiago; Terenzi, Hernán

doi:10.1039/c4dt00615a

Cited by 70 publications

(70 citation statements)

References 113 publications

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“…The bond lengths of [Co(MPT)] 2+ are typical for Co(II) high-spin as supported by literature values. 79 Further examination of the Co–N Pyr and Co–N TACN bond lengths, which are ≥2.197(2) A and ≥2.153(2) A, respectively, demonstrates their similarity to the ones observed for the high-spin [Fe(MPT)](CF 3 SO 3 ) 2 (Table 2). …”

Section: Discussionmentioning

confidence: 53%

Six-coordinate Iron(II) and Cobalt(II) paraSHIFT Agents for Measuring Temperature by Magnetic Resonance Spectroscopy

et al. 2015

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Paramagnetic Fe(II) and Co(II) complexes are utilized as the first transition metal examples of 1H NMR shift agents (paraSHIFT) for thermometry applications using Magnetic Resonance Spectroscopy (MRS). The coordinating ligands consist of TACN (1,4,7-triazacyclononane) and CYCLEN (1,4,7,10-tetraazacyclododecane) azamacrocycles appended with 6-methyl-2-picolyl groups, denoted as MPT and TMPC, respectively. 1H NMR spectra of the MPT- and TMPC-based Fe(II) and Co(II) complexes demonstrate narrow and highly shifted resonances that are dispersed as broadly as 440 ppm. The six-coordinate complex cations, [M(MPT)]2+ and [M(TMPC)]2+, vary from distorted octahedral to distorted trigonal prismatic geometries, respectively, and also demonstrate that 6-methyl-2-picolyl pendents control the rigidity of these complexes. Analyses of the 1H NMR chemical shifts, integrated intensities, line widths, the distances obtained from X-ray diffraction measurements and longitudinal relaxation time (T1) values allow for the partial assignment of proton resonances of the [M(MPT)]2+ complexes. Nine and six equivalent methyl protons of [M(MPT)]2+ and [M(TMPC)]2+, respectively, produce three-fold higher 1H NMR intensities compared to other paramagnetically shifted proton resonances. Among all four complexes, the methyl proton resonances of [Fe(TMPC)]2+ and [Co(TMPC)]2+ at −49.3 ppm and −113.7 ppm (37 °C) demonstrate the greatest temperature dependent coefficients (CT) of 0.23 ppm/°C and 0.52 ppm/°C, respectively. The methyl groups of these two complexes both produce normalized values of |CT|/FWHM = 0.30 °C−1, where FWHM is full width at half maximum (Hz) of proton resonances. The T1 values of the highly shifted methyl protons are in the range of 0.37–2.4 ms, allowing rapid acquisition of spectroscopic data. These complexes are kinetically inert over a wide range of pH values (5.6–8.6), as well as in the presence of serum albumin and biologically relevant cations and anions. The combination of large hyperfine shifts, large temperature sensitivity, increased signal-to-noise ratio and short T1 values suggests that these complexes, in particular the TMPC-based complexes, show promise as paraSHIFT agents for thermometry.

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Section: Discussionmentioning

confidence: 53%

Six-coordinate Iron(II) and Cobalt(II) paraSHIFT Agents for Measuring Temperature by Magnetic Resonance Spectroscopy

et al. 2015

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“…Increase the steric effect at the N-donor atoms of the coligand results in increasing distortion from the above adapted geometry. With Co(II) complexes 35-40 of tripod tetradentate amine ligands the TPB geometry is retained with different degree of distortion (s = 0.70-1.0) [1,29,45]. However, with Cu(II) compounds which were derived from tetraamines the picture is more complicated and depends largely on the chelate ring size and steric environment imposed in the coligand.…”

Section: Square Planar Versus Trigonal Bipyramidal Geometry In Fivecomentioning

confidence: 95%

“…In general, it has been pointed out that SP geometries are stabilized in complexes that are constructed from ligands with the capability of forming six-membered chelate rings [34][35][36] as this was the case in complexes 2-5.…”

Section: Uv-vis Spectra Of the Complexesmentioning

confidence: 99%

Five-coordinate metal(II) complexes based pyrazolyl ligands

et al. 2015

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“…The results agreed with the flow cytometric analysis for ROS generation in T‐24 cells. In addition, the alternative possibility that the Co(III) complex 1 might bind to DNA and be reduced by thiols and/or ascorbic acid reducing species abundant in cells, thus generating ROS close to DNA to cause DNA damage, very similar to that of [Co(6‐MeTPA)Cl]‐ClO 4 /PF 6 , [Co(6‐Me 2 TPA)Cl]ClO 4 /PF 6 , [Co(BPQA)Cl]ClO 4 /PF 6 , [Co(BQPA)Cl]ClO 4 /PF 6 , [Co(TPA)Cl]ClO 4 , [Co(Pyimpy)‐Cl 2 ], [Co(Pyimpy) 2 ](ClO4) 2 , [Co(Pamp)Cl 2 ], [Co(Pamp) 2 ]‐(ClO 4 ), [Cu(p‐4‐bmb)(Ac) 2 ] 2 , and [Co(p‐4‐bmp)Cl 2 ] 2 . Taken together, it can be seen that the Co(III) complex 1 interfered with mitochondrial function, led to the accumulation of ROS and cause DNA damage, and consequently induced apoptosis …”

Section: Resultsmentioning

confidence: 99%

Synthesis, Characterization, and Cytotoxicity of the Cobalt (III) Complex with N,N‐Diethyl‐4‐(2,2′:6′,2′′‐terpyridin‐4′‐yl)aniline

Zou

Wang

Qin

et al. 2018

Chemistry & Biodiversity

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A cobalt(III) complex, [Co(L) ](ClO ) (1), in which the ligand L was N,N-diethyl-4-(2,2':6',2''-terpyridin-4'-yl)aniline (L), was synthesized and fully characterized. This new cobalt(III) complex 1 exhibited selective cytotoxicity against HeLa, T-24, A549, MGC80-3, HepG2, and SK-OV-3 cells with IC values in the micromolar range (0.52 - 4.33 μm), and it exhibited low cytotoxicity against normal HL-7702 cells. The complex 1 was the most potent against the T-24 cells. It was found that 1 could cause the cell cycle arrest in G1 phase, and it exerted its antitumor activity mainly via disruption of mitochondrial function.

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Efficient hydrolytic cleavage of plasmid DNA by chloro-cobalt(ii) complexes based on sterically hindered pyridyl tripod tetraamine ligands: synthesis, crystal structure and DNA cleavage

Cited by 70 publications

References 113 publications

Six-coordinate Iron(II) and Cobalt(II) paraSHIFT Agents for Measuring Temperature by Magnetic Resonance Spectroscopy

Six-coordinate Iron(II) and Cobalt(II) paraSHIFT Agents for Measuring Temperature by Magnetic Resonance Spectroscopy

Five-coordinate metal(II) complexes based pyrazolyl ligands

Synthesis, Characterization, and Cytotoxicity of the Cobalt (III) Complex with N,N‐Diethyl‐4‐(2,2′:6′,2′′‐terpyridin‐4′‐yl)aniline

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