Category: 35564-86-4

Rodighiero, S.; De Simoni, A.; Formenti, A. published the artcile< The voltage-dependent nonselective cation current in human red blood cells studied by means of whole-cell and nystatin-perforated patch-clamp techniques>, Synthetic Route of 35564-86-4, the main research area is cation current erythrocyte cell nystatin perforated patch clamp.

Human red blood cells (RBC) can be studied by means of whole-cell and nystatin-perforated patch-clamp techniques. In 85% of the whole-cell experiments (n=86) and 69% of the perforated-patch recordings (n=13), steps to pos. potentials, from a holding potential of 0 mV, induced a slow-activating non-inactivating persistent outward current which reverted at about 0 mV. The current activation phase fitted well with a two-component exponential curve. Half-maximal conductance was reached at about 42 mV. Na+ and K+ carried this current, which was not affected by 20 nM charybdotoxin or 20 mM TEA, but was reduced following a partial substitution of extracellular Cl- by tartrate. This current has characteristics similar to the single-channel currents already described in RBC and may be involved in the rapid adaptations of these cells in the circulation.

Biochimica et Biophysica Acta, Biomembranes published new progress about Bioelectric conductivity. 35564-86-4 belongs to class alcohols-buliding-blocks, and the molecular formula is C7H18ClNO5, Synthetic Route of 35564-86-4.

Referemce:
Alcohol – Wikipedia,
Alcohols – Chemistry LibreTexts

Zhang, Zheng; Yu, Haijie; Huang, Junhao; Faouzi, Malika; Schmitz, Carsten; Penner, Reinhold; Fleig, Andrea published the artcile< The TRPM6 Kinase Domain Determines the Mg·ATP Sensitivity of TRPM7/M6 Heteromeric Ion Channels>, Recommanded Product: N-Methyl-D-glucamine Hydrochloride, the main research area is TRPM6 kinase magnesium ATP TRPM7 heteromer ion channel human; Magnesium; Metabolic Regulation; Protein Complexes; Protein Kinases; TRP channels.

The transient receptor potential melastatin member 7 (TRPM7) and member 6 (TRPM6) are divalent cation channel kinases essential for magnesium (Mg2+) homeostasis in vertebrates. It remains unclear how TRPM6 affects divalent cation transport and whether this involves functional homomeric TRPM6 plasma membrane channels or heteromeric channel assemblies with TRPM7. We show that homomeric TRPM6 is highly sensitive to intracellular free Mg2+ and therefore unlikely to be active at physiol. levels of [Mg2+]i. Co-expression of TRPM7 and TRPM6 produces heteromeric TRPM7/M6 channels with altered pharmacol. and sensitivity to intracellular Mg·ATP compared with homomeric TRPM7. Strikingly, the activity of heteromeric TRPM7/M6 channels is independent of intracellular Mg·ATP concentrations, essentially uncoupling channel activity from cellular energy status. Disruption of TRPM6 kinase phosphorylation activity re-introduces Mg·ATP sensitivity to the heteromeric channel similar to that of TRPM7. Thus, TRPM6 modulates the functionality of TRPM7, and the TRPM6 kinase plays a critical role in tuning the phenotype of the TRPM7·M6 channel complex.

Journal of Biological Chemistry published new progress about Biological cation transport. 35564-86-4 belongs to class alcohols-buliding-blocks, and the molecular formula is C7H18ClNO5, Recommanded Product: N-Methyl-D-glucamine Hydrochloride.

Referemce:
Alcohol – Wikipedia,
Alcohols – Chemistry LibreTexts

Jowett, Laura A.; Howe, Ethan N. W.; Soto-Cerrato, Vanessa; Van Rossom, Wim; Perez-Tomas, Ricardo; Gale, Philip A. published the artcile< Indole-based perenosins as highly potent HCl transporters and potential anti-cancer agents>, Quality Control of 35564-86-4, the main research area is breast cancer perenosin hydrogen chloride transporter anticancer cytotoxicity.

Prodigiosin is one of the most potent anion transporters in lipid bilayer membranes reported to date. Inspired by the structure of this natural product, we have recently designed and synthesized a new class of H+/Cl- cotransporters named ‘perenosins’. Here we report a new library of indole-based perenosins and their anion transport properties. The new transporters demonstrated superior transmembrane transport efficiency when compared to other indole-based transporters, due to favorable encapsulating effects from the substituents on the perenosin backbone. Anion transport assays were used to determine the mechanism of chloride transport revealing that the compounds function as ‘strict’ HCl cotransporters. Cell viability studies showed that some compounds specifically trigger late-onset cell death after 72 h with a unique correlation to the position of alkyl chains on the perenosins. Further investigations of cell death mechanism showed a mixture of cell cycle arrest and apoptosis was responsible for the observed decrease in cell viability.

Scientific Reports published new progress about Antitumor agents. 35564-86-4 belongs to class alcohols-buliding-blocks, and the molecular formula is C7H18ClNO5, Quality Control of 35564-86-4.

Referemce:
Alcohol – Wikipedia,
Alcohols – Chemistry LibreTexts

Labarthe, Benoit; Idee, Jean-Marc; Burnett, Roger; Corot, Claire published the artcile< In Vivo Comparative Antithrombotic Effects of Ioxaglate and Iohexol and Interaction With the Platelet Antiaggregant Clopidogrel>, Synthetic Route of 35564-86-4, the main research area is ionic nonionic contrast media antithrombotic interaction clopidogrel.

RATIONALE AND OBJECTIVES. Experiments were designed to (1) compare the effects of iodinated contrast media (CM) on a rat model of arterial thrombosis, (2) evaluate which element of the ioxaglate solution supports its antithrombotic activity, and (3) investigate the interaction of ionic and non-ionic CM with the antiplatelet agent clopidogrel. MATERIALS AND METHODS. Carotid thrombosis was induced in rats by extravascular application of a filter paper soaked in FeCl (35% vol/wt), proximal to an ultrasonic flow probe. (1) The antithrombotic potential of low-osmolar ionic (ioxaglate Na/meglumine) or nonionic contrast media (iohexol and iodixanol) (all 1600 mg iodine/kg, IV) was assessed by measuring the time to occlusion (TTO) of the carotid artery and the thrombus weight (TW). (2) Isotonic saline and iso-osmolar (280 mOsm/kg) and hyperosmolar (560 mOsm/kg) solutions of meglumine hydrochloride, meglumine ioxaglate (560 mOsm/kg), sodium ioxaglate (600 mOsm/kg) and sodium and meglumine ioxaglate (com. solution) were tested under similar conditions. (3) Interaction with clopidogrel was tested by injecting lower dose of CM (960 mg iodine/kg) 2 h after clopidogrel (2 mg/kg per os). RESULTS: (1) Ioxaglate prolonged TTO when compared with saline (30.0 ± 1.1 min vs. 19.6 ± 2.4 min, <0.001), whereas iohexol had no effect (21.3 ± 1.3 min). Ioxaglate's effect was associated with a reduction in TW with ioxaglate vs. saline (2.6 ± 0.4 mg and 4.7 ± 0.7 mg, resp., <0.05) whereas TW remained unchanged in the iohexol group (4.2 ± 0.4 mg). The nonionic dimer iodixanol induced a direct vasoconstrictor effect on the carotid artery and was consequently excluded from the study. (2) Neither iso-osmolar nor hyperosmolar solutions of meglumine had any effect on TTO whereas both sodium and meglumine salts of ioxaglic acid prolonged TTO, suggesting that the antithrombotic effect of ioxaglate is mediated by the ioxaglic acid moiety alone as neither meglumine, osmolality or sodium played a significant role. (3) A synergistic effect on TTO was found when ioxaglate was associated with clopidogrel whereas no such effect was observed with iohexol. CONCLUSIONS: These data show a greater in vivo antithrombotic potential for the ionic contrast medium ioxaglate than for the non-ionic contrast medium iohexol and, for the first time, a synergistic effect between a contrast medium and a platelet antiaggregant drug in vivo. Investigative Radiology published new progress about Anticoagulants. 35564-86-4 belongs to class alcohols-buliding-blocks, and the molecular formula is C7H18ClNO5, Synthetic Route of 35564-86-4.

Referemce:
Alcohol – Wikipedia,
Alcohols – Chemistry LibreTexts