Synthesis, characterization and in vitro antimicrobial evaluation of new compounds incorporating oxindole nucleus

New compounds incorporating with the oxindole nucleus were synthesized via the reaction of substituted isatins [5-methyl-, 5-chloro- and 1-hydroxymethyl isatins] with different nucleophiles. The structures of the newly compounds were elucidated on the basis of FTIR, (1)H NMR, (13)CMR spectral data, GC/MS and chemical analysis. Investigation of antimicrobial activity of the new compounds was evaluated using broth dilution technique in terms of minimal inhibitory concentration (MIC) count against four pathogenic bacteria and two pathogenic fungi. Most of the new compounds are significantly active against bacteria and fungi. MIC showed that compound (4a) possesses higher effect on Gram-positive bacteria Bacillus cereus than the selected antibacterial agent sulphamethoxazole, whereas compound (11c) possesses more activity against Gram-negative bacteria Shigella dysenterie.     

Cystic fibrosis transmembrane conductance regulator (CFTR) anion binding as a probe of the pore.

We compared the effects of mutations in transmembrane segments (TMs) TM1, TM5, and TM6 on the conduction and activation properties of the cystic fibrosis transmembrane conductance regulator (CFTR) to determine which functional property was most sensitive to mutations and, thereby, to develop a criterion for measuring the importance of a particular residue or TM for anion conduction or activation. Anion substitution studies provided strong evidence for the binding of permeant anions in the pore. Anion binding was highly sensitive to point mutations in TM5 and TM6. Permeability ratios, in contrast, were relatively unaffected by the same mutations, so that anion binding emerged as the conduction property most sensitive to structural changes in CFTR. The relative insensitivity of permeability ratios to CFTR mutations was in accord with the notion that anion-water interactions are important determinants of permeability selectivity. By the criterion of anion binding, TM5 and TM6 were judged to be likely to contribute to the structure of the anion-selective pore, whereas TM1 was judged to be less important. Mutations in TM5 and TM6 also dramatically reduced the sensitivity of CFTR to activation by 3-isobutyl 1-methyl xanthine (IBMX), as expected if these TMs are intimately involved in the physical process that opens and closes the channel.     

Leaf–water relations and ion concentrations of the halophyte <Emphasis Type="Italic">Atriplex hortensis</Emphasis> in response to salinity and water stress

The impact of salinity and water stress was analyzed in the xero-halophyte Atriplex hortensis using two varieties: green orach (A. hortensis var. purpurea) and red orach (A. hortensis var. rubra). A. hortensis L. is a C₃ species well adapted to salt and drought conditions. To collect information on the physiological impact of different salt and water deficit levels on their water stress resistance, plants were exposed for 3 months to solution containing four levels of NaCl or to water stress regimes including four levels of field capacity. Osmotic potential at zero turgor Ψ_s⁰, osmotic potential at full turgor (Ψ_s¹⁰⁰), relative water content (RWC), ion concentration (Na⁺, K⁺, Ca²⁺, Mg²⁺, and Cl⁻), and malondialdehyde (MDA) were determined at the end of the treatment. The salinity and water stress induced a decrease in Ψ_s¹⁰⁰, Ψ_s⁰, and RWC in both varieties, recorded changes being higher in plants of red variety than those of green variety. Both varieties specifically accumulated Na⁺ in response to drought and salt stress, suggesting that this element could play a physiological role in the stress response of this xero-halophyte species. In contrast, the presence of NaCl and water stress induced a decrease in K⁺, Ca²⁺, and Mg²⁺ concentration in both varieties. Salinity clearly induced an increase in Cl^– concentration in all tissues, but water stress had no impact on this parameter. MDA concentration increased in response to water stress and exogenous NaCl. Based on these findings the more drought-tolerant red orach may be grown in water-limiting soils.     

An improved method for routine preparation of intact artificial chromosome DNA (340-1000 kb) for transfection into human cells

The transfer of high molecular weight (HMW) DNA into mammalian cells is an important strategy for assessing human gene expression and chromosome structure and function. However, using current methods, it is difficult to dependably prepare intact HMW DNA because of the susceptibility of the DNA to degradation and physical shearing. Here we describe a strategy whereby intact artificial chromosome DNA (as large as 1 Mb) can be routinely prepared from yeast. Strict adherence to this protocol has resulted in: (i) >90% of liquid DNA preparations containing largely intact DNA; (ii) transfection efficiencies for the development of stable human clonal cell lines ranging from 5 x 10(-7) to 8.8 x 10(-5); and (iii) the presence of markers from both YAC arms in 30-42% of the human fibrosarcoma cell HT1080 clones and 100% of the CF lung epithelial cell lines IB3-1 and CFT1 clones, suggesting that the HMW DNA is potentially intact in a substantial proportion of clones. Using this protocol for DNA preparation, successful transfection of functional 1 Mb human artificial chromosome DNA into human cells has also been achieved. This methodology should prove useful to those interested in using HMW human DNA for gene expression and functional analysis or for linear artificial chromosome construction, since integrity is absolutely critical for the success of these studies.     

Antiproliferative effects of metal complexes of new isatin hydrazones against HCT116, MCF7 and HELA tumour cell lines

New hydrazone ligands (HL) derived from 5-substituted isatins and 1-(4-(2-methoxybenzyl)-6-arylpyridazin-3-yl)hydrazines and its complexes with Co(II) and Cu(II) were synthesized. The new hydrazones and their complexes were characterized by means of elemental, spectral analyses and magnetic studies. Primary cytotoxicity evaluation of HL 5a and the new complexes showed that these complexes could act as anticancer agents since they reduced the growth of samples of human tumour cell lines (HCT116((Colon)), MCF7((Breast)) and HELA((Cervix))) to ≤18.5 μg/mL for the new complexes.     

Synthesis of new Schiff bases bearing 1,2,4-triazole,thiazolidine and chloroazetidine moieties and their pharmacological evaluation

New compounds based on oxindole moiety were synthesized via the reaction of 5-substitued isatins 1a–e with different nucleophiles such as benzidine, 3,3′-dimethoxybenzidine 2a,b and 2,6-diaminopyridine 3 to afford three different classes of bis-Schiff bases 4a–e, 5a–e and 6a–e, respectively. The structures of the new compounds were elucidated on the basis of their FTIR, ¹H NMR, ¹³C NMR, GC/MS spectral data and elemental analysis. The in vitro antimicrobial activity of the new compounds was evaluated using a broth dilution technique in terms of minimal inhibitory concentration (MIC) against four bacterial and two fungal pathogens and anticancer activities against HELA cervix. The revealed data showed that compound 9d has excellent activity against Gram?+?ve and Gram –ve bacteria, and compounds 11b presented promising anticancer activity against HELA cervix.