et. al. scite author profile

et. al.

5Publications

3Citation Statements Received

4Citation Statements Given

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University of Tsukuba

Publications

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Dysregulated NK-cell function during long-duration spaceflight

Bigley¹,

al.²

2018

Arspa

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A navegação consulta e descarregamento dos títulos inseridos nas Bibliotecas Digitais UC Digitalis, UC Pombalina e UC Impactum, pressupõem a aceitação plena e sem reservas dos Termos e Condições de Uso destas Bibliotecas Digitais, disponíveis em https://digitalis.uc.pt/pt-pt/termos. Conforme exposto nos referidos Termos e Condições de Uso, o descarregamento de títulos de acesso restrito requer uma licença válida de autorização devendo o utilizador aceder ao(s) documento(s) a partir de um endereço de IP da instituição detentora da supramencionada licença.Ao utilizador é apenas permitido o descarregamento para uso pessoal, pelo que o emprego do(s) título(s) descarregado(s) para outro fim, designadamente comercial, carece de autorização do respetivo autor ou editor da obra.Na medida em que todas as obras da UC Digitalis se encontram protegidas pelo Código do Direito de Autor e Direitos Conexos e demais legislação aplicável, toda a cópia, parcial ou total, deste documento, nos casos em que é legalmente admitida, deverá conter ou fazer-se acompanhar por este aviso.

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Crisis intervention training at a predoctoral internship in professional psychology.

Lamb¹,

al.²

1983

Professional Psychology: Research and Practice

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Immune cell profiles distinguish Australian olympic athletes with or without upper respiratory symptoms

Colbey¹,

al.²

2018

Arspa

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A navegação consulta e descarregamento dos títulos inseridos nas Bibliotecas Digitais UC Digitalis, UC Pombalina e UC Impactum, pressupõem a aceitação plena e sem reservas dos Termos e Condições de Uso destas Bibliotecas Digitais, disponíveis em https://digitalis.uc.pt/pt-pt/termos. Conforme exposto nos referidos Termos e Condições de Uso, o descarregamento de títulos de acesso restrito requer uma licença válida de autorização devendo o utilizador aceder ao(s) documento(s) a partir de um endereço de IP da instituição detentora da supramencionada licença. Ao utilizador é apenas permitido o descarregamento para uso pessoal, pelo que o emprego do(s) título(s) descarregado(s) para outro fim, designadamente comercial, carece de autorização do respetivo autor ou editor da obra. Na medida em que todas as obras da UC Digitalis se encontram protegidas pelo Código do Direito de Autor e Direitos Conexos e demais legislação aplicável, toda a cópia, parcial ou total, deste documento, nos casos em que é legalmente admitida, deverá conter ou fazer-se acompanhar por este aviso.

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ChemInform Abstract: Analysis of Surface Binding Sites (SBS) Within GH62, GH13, and GH77

Wilkens¹,

al.²

2016

ChemInform

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An Investigation into the Metabolic Profiles of Human Tconvs and Tregs Identifies Divergent Metabolic Characteristics in Effector Memory Subsets

Hashimoto¹,

al.²

2020

JNDS

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Hisashi Hashimoto, Fadi Issa, Joanna Hester Introduction Conventional T cells (Tconvs) are known to switch from oxidative phosphorylation (OXPHOS) to aerobic glycolysis upon activation. In contrast, studies of mouse in vitro-induced regulatory T cells (Tregs) have revealed an overriding preference for OXPHOS. However, the metabolic preferences of human Tregs remain unclear and warrant further investigation in order to help identify therapeutic opportunities. Methods Human CD4+ Tconvs and CD4+CD25+CD127lo Tregs were flow sorted from healthy human donors and stimulated with anti-CD3/anti-CD28 beads or left unstimulated. In some experiments, Tconvs and Tregs were sorted into naive, central memory (CM) and effector memory (EM) subsets. Aerobic glycolysis and oxygen consumption rates were investigated using Seahorse XF. Cells were also assessed for their glucose consumption rate using the fluorescent glucose analogue 2-NBDG and Glut1 surface staining. Mitochondrial membrane potential and mass were assessed using mitotrackers and Mito-ID by flow cytometry. Results In contrast to mouse Tregs, human Tregs switch to glycolysis upon activation. While Tregs appeared to mirror the metabolic profile of Tconvs, there were differences with specific subsets. Activated EM Tregs displayed the lowest glucose consumption rate, whereas their counterpart subset in Tconvs had the highest glucose consumption rate among all subsets. Assessment of mitochondrial function revealed that all subsets of Tregs maintain a high number of polarized mitochondria, whereas memory subsets of Tconvs had a comparatively lower number of mitochondria, particularly in the EM population. Conclusions This study provides an in depth characterisation of the metabolic profile of human Tregs. These data shed light on potential differences in EM metabolic activity between Tregs and Tconvs that could be exploited for therapeutic targeting.

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et. al.

Dysregulated NK-cell function during long-duration spaceflight

Crisis intervention training at a predoctoral internship in professional psychology.

Immune cell profiles distinguish Australian olympic athletes with or without upper respiratory symptoms

ChemInform Abstract: Analysis of Surface Binding Sites (SBS) Within GH62, GH13, and GH77

An Investigation into the Metabolic Profiles of Human Tconvs and Tregs Identifies Divergent Metabolic Characteristics in Effector Memory Subsets

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