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1.
Int J Cardiol ; 362: 68-73, 2022 09 01.
Artigo em Inglês | MEDLINE | ID: mdl-35526658

RESUMO

BACKGROUND: Patients with adult congenital heart disease (ACHD) are a rapidly growing cardiovascular population with increasing health needs and co-morbidities. Furthermore, their management requires frequent and ongoing hospital visits which can be burdensome. Digital health and remote monitoring have been shown to have a vast potential to enhance delivery of healthcare for patients, reducing their need for travel to clinic appointments therefore reducing costs to the patient and the healthcare service. METHODS: Patients over the age of 16 with a diagnosis of ACHD were invited to use the tailored digital application too. They were monitored for a period of 6 months. Information on patient demographics, time using the application, flagged events that prompted clinical reviews and their feedback through patient surveys were collected. RESULTS: A total of 103 patients were enrolled and registered to use the digital application tool. There were 57 (56%) males, median age at the time of enrolment was 39 (16-73) years. The majority (96%) had a moderate or complex ACHD according to the ACC/AHA classification. There was a total of 7 modules that were completed on a weekly basis. The median length of a participant session was 2.2 min and the mean time to complete a module was 21 s. In total, 35 (67%) felt that the application helped them better manage their cardiac condition. Almost all (94%) of patients expressed that they would like to continue using the application beyond the pilot. There were 18 flagged events during the 6 month observation period, and 50% of received early clinical intervention. CONCLUSION: Application based remote monitoring in this select group was well received and potentially holds large benefit to patients both clinically and economically. There were no safety concerns in our pilot feasibility study. Our data may inform much needed and timely investment in digital health.


Assuntos
Cardiopatias Congênitas , Adulto , Comorbidade , Estudos de Viabilidade , Feminino , Cardiopatias Congênitas/diagnóstico , Cardiopatias Congênitas/epidemiologia , Cardiopatias Congênitas/terapia , Humanos , Masculino , Monitorização Fisiológica , Projetos Piloto
2.
Mol Cell Biol ; 27(12): 4365-73, 2007 Jun.
Artigo em Inglês | MEDLINE | ID: mdl-17438143

RESUMO

S100A1, a Ca(2+)-sensing protein of the EF-hand family that is expressed predominantly in cardiac muscle, plays a pivotal role in cardiac contractility in vitro and in vivo. It has recently been demonstrated that by restoring Ca(2+) homeostasis, S100A1 was able to rescue contractile dysfunction in failing rat hearts. Myocardial contractility is regulated not only by Ca(2+) homeostasis but also by energy metabolism, in particular the production of ATP. Here, we report a novel interaction of S100A1 with mitochondrial F(1)-ATPase, which affects F(1)-ATPase activity and cellular ATP production. In particular, cardiomyocytes that overexpress S100A1 exhibited a higher ATP content than control cells, whereas knockdown of S100A1 expression decreased ATP levels. In pull-down experiments, we identified the alpha- and beta-chain of F(1)-ATPase to interact with S100A1 in a Ca(2+)-dependent manner. The interaction was confirmed by colocalization studies of S100A1 and F(1)-ATPase and the analysis of the S100A1-F(1)-ATPase complex by gel filtration chromatography. The functional impact of this association is highlighted by an S100A1-mediated increase of F(1)-ATPase activity. Consistently, ATP synthase activity is reduced in cardiomyocytes from S100A1 knockout mice. Our data indicate that S100A1 might play a key role in cardiac energy metabolism.


Assuntos
Trifosfato de Adenosina/análise , Cálcio/metabolismo , Miócitos Cardíacos/química , ATPases Translocadoras de Prótons/metabolismo , Proteínas S100/metabolismo , Adenoviridae/genética , Animais , Células Cultivadas , Técnica Indireta de Fluorescência para Anticorpo , Genes Reporter , Glutationa Transferase/metabolismo , Proteínas de Fluorescência Verde/metabolismo , Ventrículos do Coração/citologia , Luciferases/metabolismo , Camundongos , Camundongos Endogâmicos C57BL , Camundongos Knockout , Mitocôndrias Cardíacas/enzimologia , Mitocôndrias Cardíacas/metabolismo , Mitocôndrias Cardíacas/ultraestrutura , Miócitos Cardíacos/citologia , Miócitos Cardíacos/metabolismo , Miócitos Cardíacos/ultraestrutura , ATPases Translocadoras de Prótons/genética , ATPases Translocadoras de Prótons/isolamento & purificação , ATPases Translocadoras de Prótons/ultraestrutura , Interferência de RNA , Proteínas Recombinantes de Fusão/isolamento & purificação , Proteínas Recombinantes de Fusão/metabolismo , Proteínas S100/genética , Proteínas S100/isolamento & purificação , Proteínas S100/ultraestrutura
3.
Biochem J ; 386(Pt 3): 591-8, 2005 Mar 15.
Artigo em Inglês | MEDLINE | ID: mdl-15537385

RESUMO

High-resolution crystallographic studies of a number of inhibited forms of bovine F1-ATPase have identified four independent types of inhibitory site: the catalytic site, the aurovertin B-binding site, the efrapeptin-binding site and the site to which the natural inhibitor protein IF1 binds. Hitherto, the binding sites for other inhibitors, such as polyphenolic phytochemicals, non-peptidyl lipophilic cations and amphiphilic peptides, have remained undefined. By employing multiple inhibition analysis, we have identified the binding sites for these compounds. Several of them bind to the known inhibitory sites. The amphiphilic peptides melittin and synthetic analogues of the mitochondrial import pre-sequence of yeast cytochrome oxidase subunit IV appear to mimic the natural inhibitor protein, and the polyphenolic phytochemical inhibitors resveratrol and piceatannol compete for the aurovertin B-binding site (or sites). The non-peptidyl lipophilic cation rhodamine 6G acts at a separate unidentified site, indicating that there are at least five inhibitory sites in the F1-ATPase. Each of the above inhibitors has significantly different activity against the bacterial Bacillus PS3 alpha3beta3gamma subcomplex compared with that observed with bovine F1-ATPase. IF1 does not inhibit the bacterial enzyme, even in the absence of the epsilon-subunit. An understanding of these inhibitors may enable rational development of therapeutic agents to act as novel antibiotics against bacterial ATP synthases or for the treatment of several disorders linked to the regulation of the ATP synthase, including ischaemia-reperfusion injury and some cancers.


Assuntos
Mitocôndrias Cardíacas/enzimologia , ATPases Mitocondriais Próton-Translocadoras/antagonistas & inibidores , ATPases Mitocondriais Próton-Translocadoras/química , Animais , Aurovertinas/química , Aurovertinas/metabolismo , Aurovertinas/farmacologia , Bacillus/enzimologia , Sítios de Ligação , Ligação Competitiva/efeitos dos fármacos , Bovinos , Concentração Inibidora 50 , Meliteno/química , Meliteno/metabolismo , Meliteno/farmacologia , ATPases Mitocondriais Próton-Translocadoras/metabolismo , Modelos Moleculares , Estrutura Molecular , Peptídeos/metabolismo , Peptídeos/farmacologia , Proteínas/metabolismo , Proteínas/farmacologia , Resveratrol , Rodaminas/metabolismo , Rodaminas/farmacologia , Estilbenos/química , Estilbenos/metabolismo , Estilbenos/farmacologia , Proteína Inibidora de ATPase
4.
Proc Natl Acad Sci U S A ; 104(34): 13632-7, 2007 Aug 21.
Artigo em Inglês | MEDLINE | ID: mdl-17698806

RESUMO

The structures of F(1)-ATPase from bovine heart mitochondria inhibited with the dietary phytopolyphenol, resveratrol, and with the related polyphenols quercetin and piceatannol have been determined at 2.3-, 2.4- and 2.7-A resolution, respectively. The inhibitors bind to a common site in the inside surface of an annulus made from loops in the three alpha- and three beta-subunits beneath the "crown" of beta-strands in their N-terminal domains. This region of F(1)-ATPase forms a bearing to allow the rotation of the tip of the gamma-subunit inside the annulus during catalysis. The binding site is a hydrophobic pocket between the C-terminal tip of the gamma-subunit and the beta(TP) subunit, and the inhibitors are bound via H-bonds mostly to their hydroxyl moieties mediated by bound water molecules and by hydrophobic interactions. There are no equivalent sites between the gamma-subunit and either the beta(DP) or the beta(E) subunit. The inhibitors probably prevent both the synthetic and hydrolytic activities of the enzyme by blocking both senses of rotation of the gamma-subunit. The beneficial effects of dietary resveratrol may derive in part by preventing mitochondrial ATP synthesis in tumor cells, thereby inducing apoptosis.


Assuntos
Inibidores Enzimáticos/química , Flavonoides/química , Flavonoides/farmacologia , Fenóis/química , Fenóis/farmacologia , ATPases Translocadoras de Prótons/antagonistas & inibidores , ATPases Translocadoras de Prótons/metabolismo , Estilbenos/química , Estilbenos/farmacologia , Animais , Sítios de Ligação , Bovinos , Cristalografia por Raios X , Inibidores Enzimáticos/farmacologia , Modelos Moleculares , Polifenóis , Ligação Proteica , Estrutura Quaternária de Proteína , Estrutura Terciária de Proteína , Subunidades Proteicas/química , Subunidades Proteicas/metabolismo , ATPases Translocadoras de Prótons/química , Resveratrol
5.
Proc Natl Acad Sci U S A ; 104(40): 15671-6, 2007 Oct 02.
Artigo em Inglês | MEDLINE | ID: mdl-17895376

RESUMO

The structure of bovine F(1)-ATPase inhibited by a monomeric form of the inhibitor protein, IF(1), known as I1-60His, lacking most of the dimerization region, has been determined at 2.1-A resolution. The resolved region of the inhibitor from residues 8-50 consists of an extended structure from residues 8-13, followed by two alpha-helices from residues 14-18 and residues 21-50 linked by a turn. The binding site in the beta(DP)-alpha(DP) catalytic interface is complex with contributions from five different subunits of F(1)-ATPase. The longer helix extends from the external surface of F(1) via a deep groove made from helices and loops in the C-terminal domains of subunits beta(DP), alpha(DP), beta(TP), and alpha(TP) to the internal cavity surrounding the central stalk. The linker and shorter helix interact with the gamma-subunit in the central stalk, and the N-terminal region extends across the central cavity to interact with the nucleotide binding domain of the alpha(E) subunit. To form these complex interactions and penetrate into the core of the enzyme, it is likely that the initial interaction of the inhibitor with F(1) forms via the open conformation of the beta(E) subunit. Then, as two ATP molecules are hydrolyzed, the beta(E)-alpha(E) interface converts to the beta(DP)-alpha(DP) interface via the beta(TP)-alpha(TP) interface, trapping the inhibitor progressively in its binding site and a nucleotide in the catalytic site of subunit beta(DP). The inhibition probably arises by IF(1) imposing the structure and properties of the beta(TP)-alpha(TP) interface on the beta(DP)-alpha(DP) interface, thereby preventing it from hydrolyzing the bound ATP.


Assuntos
Mitocôndrias/enzimologia , Proteínas/metabolismo , ATPases Translocadoras de Prótons/antagonistas & inibidores , ATPases Translocadoras de Prótons/química , Trifosfato de Adenosina/metabolismo , Animais , Sítios de Ligação , Bovinos , Dimerização , Hidrólise , Modelos Moleculares , Fragmentos de Peptídeos/química , Fragmentos de Peptídeos/metabolismo , Conformação Proteica , Proteínas/química , Proteína Inibidora de ATPase
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