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1.
Int J Cardiovasc Imaging ; 40(8): 1713-1724, 2024 Aug.
Artigo em Inglês | MEDLINE | ID: mdl-38874672

RESUMO

The maximum blood flow velocity through the aortic valve (AVmax) using Doppler transthoracic echocardiography (TTE) is important in assessing the severity of aortic stenosis (AS). The right parasternal (RP) approach has been reported to be more useful than the apical approach, but the anatomical rationale has not been studied. We aimed to clarify the influence of the angle formed by the ascending aorta and left ventricle on Doppler analysis by TTE (Sep-Ao angle) and three-dimensional multidetector computed tomography (3D-MDCT) in patients with AS. A total of 151 patients evaluated using the RP approach and 3D-MDCT were included in this study. The Sep-Ao angle determined using TTE was compared with that determined using 3D-MDCT analysis. In MDCT analysis, the left ventricular (LV) axis was measured in two ways and the calcification score was calculated simultaneously. The Sep-Ao angle on TTE was consistent with that measured using 3D-MDCT. In patients with an acute Sep-Ao angle, the Doppler angle in the apical approach was larger, potentially underestimating AVmax. Multivariate analysis revealed that an acute Sep-Ao angle, large Doppler angle in the apical approach, smaller Doppler angle in the RP approach, and low aortic valve calcification were independently associated with a higher AVmax in the RP approach than in the apical approach. The Sep-Ao angle measured using TTE reflected the 3D anatomical angle. In addition to measurements using the RP approach, technical adjustments to minimize the Doppler angle to avoid bulky calcification should always be noted for accurate assessment.


Assuntos
Estenose da Valva Aórtica , Valva Aórtica , Tomografia Computadorizada Multidetectores , Valor Preditivo dos Testes , Índice de Gravidade de Doença , Humanos , Estenose da Valva Aórtica/diagnóstico por imagem , Estenose da Valva Aórtica/fisiopatologia , Masculino , Feminino , Idoso , Valva Aórtica/diagnóstico por imagem , Valva Aórtica/fisiopatologia , Valva Aórtica/patologia , Idoso de 80 Anos ou mais , Pessoa de Meia-Idade , Velocidade do Fluxo Sanguíneo , Reprodutibilidade dos Testes , Ecocardiografia Doppler , Calcinose/diagnóstico por imagem , Calcinose/fisiopatologia , Estudos Retrospectivos , Imageamento Tridimensional , Análise Multivariada , Aorta/diagnóstico por imagem , Aorta/fisiopatologia
2.
Exp Ther Med ; 27(2): 75, 2024 Feb.
Artigo em Inglês | MEDLINE | ID: mdl-38264427

RESUMO

Cluster of differentiation (CD)44 is a marker of dental pulp stem cells and is involved in odontoblast differentiation and calcification. Chemokine-like receptor 1 (CMKLR1), also known as chemerin receptor 23 (ChemR23) is also expressed in odontoblasts and dental pulp stem cells and is involved in inflammation suppression and tooth regeneration. Resolvin E1, a bioactive lipid, is a CMKLR1 ligand that mediates the chemerin-CMKLR1 interaction and suppresses pulpal inflammation. The present study clarified the intracellular and tissue localization of CD44 and CMKLR1 by immunohistochemical staining of normal pulp and pulp with pulpitis from 12-week-old male Wistar rat teeth or human teeth. In addition, the localization of CD44 and CMKLR1 in human dental pulp stem cells was observed by immunofluorescence staining. The present study also examined the involvement of resolvin E1 in inhibiting inflammation and calcification by western blotting. CD44- and CMKLR1-positive cells were confirmed in the odontoblast layer in normal dental pulp of rats and humans. CD44 was mainly localized in the cell membrane and CMKLR1 was mainly found in the cytoplasm of human dental pulp stem cells. CMKLR1 was also confirmed in the odontoblast layer in rats and humans with pulpitis but CD44 was not present. Following treatment of dental pulp stem cells with lipoteichoic acid, which imitates Gram-positive bacterial infection, resolvin E1 did not suppress the expression of cyclooxygenase-2 or of the odontoblast differentiation marker, dentin sialophosphoprotein. Furthermore, resolvin E1 induced the differentiation of dental pulp stem cells into odontoblasts even in the presence of the inflammatory stimulus.

4.
J Biol Chem ; 298(3): 101657, 2022 03.
Artigo em Inglês | MEDLINE | ID: mdl-35131263

RESUMO

A wide range of bacteria possess virulence factors such as aminoacyl-tRNA transferases (ATTs) that are capable of rerouting aminoacyl-transfer RNAs away from protein synthesis to conjugate amino acids onto glycerolipids. We recently showed that, although these pathways were thought to be restricted to bacteria, higher fungi also possess ergosteryl-3ß-O-L-aspartate synthases (ErdSs), which transfer the L-Asp moiety of aspartyl-tRNAAsp onto the 3ß-OH group of ergosterol (Erg), yielding ergosteryl-3ß-O-L-aspartate (Erg-Asp). Here, we report the discovery, in fungi, of a second type of fungal sterol-specific ATTs, namely, ergosteryl-3ß-O-glycine (Erg-Gly) synthase (ErgS). ErgS consists of a freestanding DUF2156 domain encoded by a gene distinct from and paralogous to that of ErdS. We show that the enzyme only uses Gly-tRNAGly produced by an independent glycyl-tRNA synthetase (GlyRS) to transfer glycine onto the 3ß-OH of Erg, producing Erg-Gly. Phylogenomics analysis also show that the Erg-Gly synthesis pathway exists only in Ascomycota, including species of biotechnological interest, and more importantly, in human pathogens, such as Aspergillus fumigatus. The discovery of a second type of Erg-aa not only expands the repertoire of this particular class of fungal lipids but suggests that Erg-aa synthases might constitute a genuine subfamily of lipid-modifying ATTs.


Assuntos
Ascomicetos , Ergosterol , Glicina , Aminoácidos , Ascomicetos/genética , Ascomicetos/metabolismo , Ácido Aspártico , Glicina/biossíntese , Glicina/genética , Glicina/metabolismo , Humanos , RNA Fúngico/genética , RNA Fúngico/metabolismo , Aminoacil-RNA de Transferência/genética , Aminoacil-RNA de Transferência/metabolismo
5.
Steroids ; 169: 108823, 2021 05.
Artigo em Inglês | MEDLINE | ID: mdl-33713678

RESUMO

Aminoacylated ergosterol such as 1-ergosteryl aspartate (Erg-Asp) is a new lipid component recently discovered in fungi. In order to study physiological functions of this novel sterol derivative and to develop potential antifungal agents, we established the method to synthesize aminoacylated ergosterol derivatives. Herein, we report the synthesis of Erg-Asp as well as some other aminoacylated ergosterols (Erg-Gly, Erg-Ala, Erg-Leu, Erg-Ile, and Erg-Val) using Boc protected amino acids.


Assuntos
Ergosterol , Antifúngicos , Fragmentos de Peptídeos
6.
Proc Natl Acad Sci U S A ; 117(26): 14948-14957, 2020 06 30.
Artigo em Inglês | MEDLINE | ID: mdl-32541034

RESUMO

Diverting aminoacyl-transfer RNAs (tRNAs) from protein synthesis is a well-known process used by a wide range of bacteria to aminoacylate membrane constituents. By tRNA-dependently adding amino acids to glycerolipids, bacteria change their cell surface properties, which intensifies antimicrobial drug resistance, pathogenicity, and virulence. No equivalent aminoacylated lipids have been uncovered in any eukaryotic species thus far, suggesting that tRNA-dependent lipid remodeling is a process restricted to prokaryotes. We report here the discovery of ergosteryl-3ß-O-l-aspartate (Erg-Asp), a conjugated sterol that is produced by the tRNA-dependent addition of aspartate to the 3ß-OH group of ergosterol, the major sterol found in fungal membranes. In fact, Erg-Asp exists in the majority of "higher" fungi, including species of biotechnological interest, and, more importantly, in human pathogens like Aspergillus fumigatus We show that a bifunctional enzyme, ergosteryl-3ß-O-l-aspartate synthase (ErdS), is responsible for Erg-Asp synthesis. ErdS corresponds to a unique fusion of an aspartyl-tRNA synthetase-that produces aspartyl-tRNAAsp (Asp-tRNAAsp)-and of a Domain of Unknown Function 2156, which actually transfers aspartate from Asp-tRNAAsp onto ergosterol. We also uncovered that removal of the Asp modifier from Erg-Asp is catalyzed by a second enzyme, ErdH, that is a genuine Erg-Asp hydrolase participating in the turnover of the conjugated sterol in vivo. Phylogenomics highlights that the entire Erg-Asp synthesis/degradation pathway is conserved across "higher" fungi. Given the central roles of sterols and conjugated sterols in fungi, we propose that this tRNA-dependent ergosterol modification and homeostasis system might have broader implications in membrane remodeling, trafficking, antimicrobial resistance, or pathogenicity.


Assuntos
Ácido Aspártico/metabolismo , Aspergillus fumigatus/metabolismo , RNA Fúngico/metabolismo , Aminoacil-RNA de Transferência/metabolismo , Esteróis/metabolismo , Aminoacilação , Ácido Aspártico/química , Aspergillus fumigatus/química , Aspergillus fumigatus/genética , RNA Fúngico/química , RNA Fúngico/genética , Aminoacil-RNA de Transferência/química , Aminoacil-RNA de Transferência/genética , Esteróis/química
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