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1.
J Am Chem Soc ; 145(46): 25160-25169, 2023 Nov 22.
Artigo em Inglês | MEDLINE | ID: mdl-37943955

RESUMO

Although strong chiral self-sorting often emerges in extended covalent or supramolecular polymers, the phenomenon is generally weak in discrete assemblies (e.g., dimers and oligomers) of small molecules due to the lack of a cooperative growth mechanism. Consequently, chiral self-sorting has been overlooked in the design of switchable and metastable discrete supramolecular structures. Here, we report a butyl-benzo[h]quinoline-based iridium(III) complex (Bu-Ir) with helical chirality at its metal center, which forms preferentially a homochiral dimer and exhibits thermo-/mechano-chromism based on a monomer-dimer transformation. While a five-coordinate monomer is formed in a racemic or an enantiopure Bu-Ir solution at 25 °C, a six-coordinate homochiral dimer complex is formed almost exclusively at low temperatures, with a higher degree of dimerization in enantiopure Bu-Ir solution. Estimation of apparent dimerization binding constants (K) and thermodynamic parameters (ΔH and ΔS) based on variable temperature ultraviolet-visible (UV-vis) and 1H NMR spectra reveals a strong preference for homochiral dimerization (largest known value for the coordination complex, Khomo/Khetero > 50). Notably, crystals of the homochiral dimer are metastable, undergoing a distinct color change upon grinding (from yellow to red) due to mechanical cleavage of coordination bonds (i.e., a dimer to monomer transformation). A comparison with control compounds having different substituents (proton, methyl, isopropyl, and phenyl groups) reveals that Bu-Ir dimerization involves both strong homochiral self-sorting preference and connected thermo-/mechano-chromic behavior, which is based on matched propeller-shaped chirality and subtle steric repulsion between alkyl substituents that render the homochiral dimer switchable and metastable. These findings provide substantial insights into the emergence of dynamic functionality based on the rational design of discrete chiral assemblies.

2.
Br J Nutr ; 127(3): 377-383, 2022 02 14.
Artigo em Inglês | MEDLINE | ID: mdl-33762029

RESUMO

Bitter melon (Momordica charantia L.) has been shown to have various health-promoting activities, including antidiabetic and hypoglycaemic effects. Improvement in insulin sensitivity and increase in glucose utilisation in peripheral tissues have been reported, but the effect on insulin secretion from pancreatic ß-cells remains unclear. In this study, we investigated the effect of bitter melon fruit on insulin secretion from ß-cells and the underlying mechanism. The green fruit of bitter melon was freeze-dried and extracted with methanol. The bitter melon fruit extract (BMFE) was fractionated using ethyl acetate (fraction A), n-butanol (fraction B) and water (fraction C). Insulin secretory capacity from INS-1 rat insulinoma cell line and rat pancreatic islets, as well as glucose tolerance in rats by oral glucose tolerance test (OGTT), was measured using BMFE and fractions. ATP production in ß-cells was also examined. BMFE augmented insulin secretion from INS-1 cells in a dose-dependent manner. The significant augmentation of insulin secretion was independent of the glucose dose. Fraction A (i.e. hydrophobic fraction), but not fractions B and C, augmented insulin secretion significantly at the same level as that by BMFE. This finding was also observed in pancreatic islets. In OGTT, BMFE and fraction A decreased blood glucose levels and increased serum insulin levels after glucose loading. The decrease in blood glucose levels was also observed in streptozotocin-induced diabetic rats. In addition, BMFE and fraction A increased the ATP content in ß-cells. We concluded that hydrophobic components of BMFE increase ATP production and augment insulin secretion from ß-cells, consequently decreasing blood glucose levels.


Assuntos
Diabetes Mellitus Experimental , Momordica charantia , Trifosfato de Adenosina/metabolismo , Animais , Glicemia/análise , Frutas/química , Glucose/metabolismo , Hipoglicemiantes/farmacologia , Insulina , Secreção de Insulina , Medicina Tradicional Chinesa , Momordica charantia/química , Momordica charantia/metabolismo , Extratos Vegetais/farmacologia , Ratos
3.
Phytother Res ; 34(6): 1338-1346, 2020 Jun.
Artigo em Inglês | MEDLINE | ID: mdl-31845444

RESUMO

Bitter melon (Momordica charantia L.) is a vegetable and has been used as traditional medicine. Recently, we reported that bitter melon fruit extracts and its ethyl acetate (EtOAc)-soluble fraction markedly suppressed the expression of proinflammatory genes, including the inducible nitric oxide synthase gene. However, it is unclear whether bitter melon exhibits antidiabetic effects. In this study, we showed that cucurbitacin B, a cucurbitane-type triterpenoid, was present in an EtOAc-soluble fraction and suppressed nitric oxide production in hepatocytes. When the EtOAc-soluble fraction was administered for 7 days to ob/ob mice, a type 2 diabetes mellitus model, the mice fed with this fraction exhibited a significant decrease in body weight and blood glucose concentrations compared with the mice fed without the fraction. The administration of the fraction resulted in significant increases in serum insulin concentrations and the levels of both insulin receptor mRNA and protein in the ob/ob mouse liver. The EtOAc-soluble fraction decreased the interleukin-1ß mRNA expression, as well as hepatic lipid accumulation in hepatocytes. Taken together, these results indicate that administration of an EtOAc-soluble fraction improved hyperglycemia and hepatic steatosis, suggesting that this fraction may be responsible for both the antidiabetic and anti-inflammatory effects of bitter melon fruit.


Assuntos
Diabetes Mellitus Tipo 2/tratamento farmacológico , Frutas/química , Hipoglicemiantes/uso terapêutico , Lipídeos/química , Fígado/efeitos dos fármacos , Momordica charantia/química , Animais , Modelos Animais de Doenças , Humanos , Hiperglicemia/metabolismo , Hipoglicemiantes/farmacologia , Masculino , Camundongos , Ratos , Ratos Wistar
4.
Bioconjug Chem ; 29(5): 1756-1762, 2018 05 16.
Artigo em Inglês | MEDLINE | ID: mdl-29648798

RESUMO

Thermoresponsive magnetic nanoparticles (MNPs) were synthesized using a magnetosome display system. An elastin-like polypeptide decamer of VPGVG (ELP10), which is hydrophobic above the transition temperature ( Tt) and can form an insoluble aggregation, was immobilized on biogenic MNPs in the magnetotactic bacterium, Magnetospirillum magneticum AMB-1. It was suggested that hydrophobicity of the MNP surface increased at 60 °C compared with 20 °C by the immobilization of ELP10. Size distribution analysis indicated that the immobilization of ELP10 onto MNPs induced the increased hydrophobicity with increasing temperatures up to 60 °C, promoting aggregation of the particles by hydrophobic and magnetic interactions. These results suggest that the acceleration of magnetic collection at 60 °C was caused by particle aggregation promoted by hydrophobic interaction between ELP-MNPs. Furthermore, the immobilization of ELP on MNPs gave a quick magnetic collection at 60 °C by external magnetic field. The thermoresponsive properties will further expand the utility of biotechnological applications of biogenic MNPs.


Assuntos
Elastina/química , Nanopartículas de Magnetita/química , Magnetossomos/química , Magnetospirillum/química , Peptídeos/química , Elastina/genética , Proteínas Imobilizadas/química , Proteínas Imobilizadas/genética , Campos Magnéticos , Magnetossomos/genética , Magnetossomos/metabolismo , Magnetospirillum/genética , Magnetospirillum/metabolismo , Peptídeos/genética , Temperatura , Transformação Genética , Temperatura de Transição
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