191 research outputs found
Synthesis and structure of metallated macrocycle-bearing cyclophophazenes. - Part I : The (Li, Mg, Zn)/SPIR0(30203) derivatives
Syntheses and molecular structures of three metallated (Li, Zn, Mg) derivatives of the macrocycle-bearing cyclophosphazene N3P3Cl4 [HN---(CH2)3---O---(CH2)2---O---(CH2)3---NH] (coded as SPIRO 30203, 1) are reported. These three molecular structures reveal three different patterns of metal coordination. In compound 2 one of the two hydrogen atoms in SPIRO 3O2O3 is substituted by lithium generating a dimeric structure with pentacoordinated lithium centers. This structure is further stabilized by N---H hydrogen bonds. In 3 both hydrogen atoms of the macrocyclic loop are replaced by two zinc atoms through a cross-link metallation leading again to a dimeric molecule. In this compound the Zn atom is found to be in a trigonal bipyramidal environment with one very long N---Zn interaction. The origin of the dimerization of the magnesium compound 4 is analogous to 3. Magnesium is in the center of a distorted octahedron, coordinated with the O- and N-donors of the macrocyclic loop and also one nitrogen atom of the N3P3 ring. 4 is the first example of a metallic center coordinated by a neutral phosphazene ligand. Typical metal-N and metal-O distances are (in Å): Li-O, 2.05—2.07; Li-N, 2.07—2.36; Zn-O, 2.08—2.14; Zn---N, 1.94—1.95 (2.49); Mg---O, 2.09—2.14; Mg---N, 2.07—2.31
Synthesis and structure of metallated macrocycle-bearing cyclophophazenes. - Part II : The (Al) /SPIRO (30203) derivatives
Synthesis and molecular structures of two metallated (aluminium) derivatives, [C9H19Cl4AlN5O2P3]· 1.5C7H8 and [C8H16Cl5AiN5O2P3] · 1.5C7H8, of the macrocycle-bearingcyclophosphazene N3P3Cl4 [HN--- (CH2)3---O---(CH2)2---O---(CH2)3-NH] (coded as SPIRO 30203) are reported. These two molecular structures reveal the same pattern of metal coordination where the two hydrogen atoms in SPIRO 30203 are substituted by aluminium generating monomeric structures with pentacoordinated aluminium centres in the inner cavities. In the first compound the exocyclic ligand at aluminium is a methyl group, in the second a chlorine atom. Typical Al---N, Al---O and Al-X distances are (Å):1.84-1.89, 1.97-2.04 and 1.93 in the former, 1.81-1.86, 1.93-2.01 and 2.12 in the latter, respectively
Promising pre-clinical validation of targeted radionuclide therapy using a [131I] labelled iodoquinoxaline derivative for an effective melanoma treatment
Targeted internal radionuclide therapy (TRT) would be an effective alternative to current therapies for dissemi- nated melanoma treatment. At our institution, a class of iodobenzamides has been developed as potent melanoma- seeking agents. This review described the preclinical vali- dations of a quinoxaline derivative molecule (ICF01012) as tracer for TRT application. It was selected for its high, specific and long-lasting uptake in tumour with rapid clear- ance from non-target organs providing suitable dosimetry parameters for TRT. Extended in vivo study of metabolic profiles confirmed durable tumoural concentration of the unchanged molecule form. Moreover melanin specificity of ICF01012 was determined by binding assay with syn- thetic melanin and in vivo by SIMS imaging. Then, we showed in vivo that [131I] ICF01012 treatment drastically inhibited growth of B16F0, B16Bl6 and M4Beu tumours whereas [131I] NaI or unlabelled ICF01012 treatment was without significant effect. Histological analysis showed that residual tumour cells exhibit a significant loss of aggres- siveness after treatment. This anti-tumoural effect was associated with a lengthening of the treated-mice survival time and an inhibition of lung dissemination for B16Bl6 model. Results presented here support the concept of TRT using a [131I] labelled iodoquinoxaline derivative for an effective melanoma treatment.<br /
N-(4-iodophenyl)-N′-(2-chloroethyl)urea as a microtubule disrupter: in vitro and in vivo profiling of antitumoral activity on CT-26 murine colon carcinoma cell line cultured and grafted to mice
The antitumoral profile of the microtubule disrupter N-(4-iodophenyl)-N′-(2-chloroethyl)urea (ICEU) was characterised in vitro and in vivo using the CT-26 colon carcinoma cell line, on the basis of the drug uptake by the cells, the modifications of cell cycle, and β-tubulin and lipid membrane profiles. N-(4-iodophenyl)-N′-(2-chloroethyl)urea exhibited a rapid and dose-dependent uptake by CT-26 cells suggesting its passive diffusion through the membranes. Intraperitoneally injected ICEU biodistributed into the grafted CT-26 tumour, resulting thus in a significant tumour growth inhibition (TGI). N-(4-iodophenyl)-N′-(2-chloroethyl)urea was also observed to accumulate within colon tissue. Tumour growth inhibition was associated with a slight increase in the number of G2 tetraploid tumour cells in vivo, whereas G2 blockage was more obvious in vitro. The phenotype of β-tubulin alkylation that was clearly demonstrated in vitro was undetectable in vivo. Nuclear magnetic resonance analysis showed that cells blocked in G2 phase underwent apoptosis, as confirmed by an increase in the methylene group resonance of mobile lipids, parallel to sub-G1 accumulation of the cells. In vivo, a decrease of the signals of both the phospholipid precursors and the products of membrane degradation occurred concomitantly with TGI. This multi-analysis established, at least partly, the ICEU activity profile, in vitro and in vivo, providing additional data in favour of ICEU as a tubulin-interacting drug accumulating within the intestinal tract. This may provide a starting point for researches for future efficacious tubulin-interacting drugs for the treatment of colorectal cancers
Massive multiplication of genome and ribosomes in dormant cells (akinetes) of Aphanizomenon ovalisporum (Cyanobacteria)
Author Posting. © The Author(s), 2011. This is the author's version of the work. It is posted here by permission of Nature Publishing Group for personal use, not for redistribution. The definitive version was published in The ISME Journal 6 (2012): 670–679, doi:10.1038/ismej.2011.128.Akinetes are dormancy cells commonly found among filamentous cyanobacteria, many of which are toxic and/or nuisance, bloom-forming species. Development of akinetes from vegetative cells is a process that involves morphological and biochemical modifications. Here we applied a single cell approach to quantify genome and ribosome content of akinetes and vegetative cells in Aphanizomenon ovalisporum (Cyanobacteria). Vegetative cells of A. ovalisporum were naturally polyploid and contained on average 8 genome copies per cell. However, the chromosomal content of akinetes increased up to 450 copies, with an average value of 119 genome copies per akinete, 15 fold higher that in vegetative cells. Based on fluorescence in situ hybridization with a probe targeting 16S rRNA and detection with confocal laser scanning microscopy we conclude that ribosomes accumulated in akinetes to a higher level than that found in vegetative cells. We further present evidence that this massive accumulation of nucleic acids in akinetes is likely supported by phosphate supplied from inorganic polyphosphate bodies that were abundantly present in vegetative cells, but notably absent from akinetes. These results are interpreted in the context of cellular investments for proliferation following long term dormancy, as the high nucleic acid content would provide the basis for extended survival, rapid resumption of metabolic activity and cell division upon germination.Supported by the Gruss Lipper Foundation research award (AS). This study was part of the Joint German-Israeli-Project (FKZ 02WT0985, WR803) funded by the German Ministry of Research and Technology (BMBF) and Israel Ministry of Science and Technology (MOST)
Cloning and characterization of the genes encoding the malolactic enzyme and the malate permease of Leuconostoc oenos.
Using degenerated primers from conserved regions of the protein sequences of malic enzymes, we amplified a 324-bp DNA fragment by PCR from Leuconostoc oenos and used this fragment as a probe for screening a Leuconostoc oenos genomic bank. Of the 2,990 clones in the genomic bank examined, 7 with overlapping fragments were isolated by performing colony hybridization experiments. Sequencing 3,453 bp from overlapping fragments revealed two open reading frames that were 1,623 and 942 nucleotides long and were followed by a putative terminator structure. The first deduced protein (molecular weight, 59,118) is very similar (level of similarity, 66%) to the malolactic enzyme of Lactococcus lactis; as in several malic enzymes, highly conserved protein regions are present. The synthesis of a protein with an apparent molecular mass of 60 kDa was highlighted by the results of labelling experiments performed with Escherichia coli minicells. The gene was expressed in E. coli and Saccharomyces cerevisiae and conferred "malolactic activity" to these species. The second open reading frame encodes a putative 34,190-Da protein which has the characteristics of a carrier protein and may have 10 membrane-spanning segments organized around a central hydrophilic core. Energy-dependent L-[14C]malate transport was observed with E. coli dicarboxylic acid transport-deficient mutants carrying the malate permease-expressing vector. Our results suggest that in Leuconostoc oenos the genes that encode the malolactic enzyme and a malate carrier protein are organized in a cluster
Using specific polyclonal antibodies to study the malolactic enzyme from Leuconostoc oenos and other lactic acid bacteria.
Specific polyclonal antibodies directed against the malolactic enzyme of Leuconostoc oenos were obtained. Despite the homologies between the malolactic enzymes from Leuc. oenos and Lactococcus lactis, no immunological relationship was detected with the L. lactis malolactic enzyme, suggesting differences in their structural organization. The use of the antiserum also demonstrated that the problem of heterologous expression occurring in the recombinant Escherichia coli strain (Labarre et al. 1996a) resulted in a low synthesis of the malolactic enzyme from Leuc. oenos. Moreover, a small amount of the protein was found to be peripherally associated to the membrane of Leuc. oenos
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