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ToWards Immunisations that Last: the Immunology and Gerontology of Helper T cells

Projektbeschreibung

Die Wirksamkeit von Impfstoffen für alternde Bevölkerungen anheben

Die Fälle von vielen Infektionskrankheiten und damit verbundenen Todesfällen sind in den letzten Jahren deutlich zurückgegangen. Dies ist auf die bedeutende Wirkung von Impfstoffen zurückzuführen. Doch mit zunehmendem Alter wird das Immunsystem des Menschen schwächer, sodass Personen anfälliger für Infektionen sind und die Impfstoffe weniger Wirkung zeigen. Ist diese Entwicklung unumkehrbar oder kann die Impfreaktion gesteigert werden? Das vom Europäischen Forschungsrat finanzierte Projekt TWILIGHT verfolgt das Ziel, die Mechanismen zu erforschen, die dieser Entwicklung zugrundeliegen, und Strategien zu entwickeln, die Wirksamkeit von Impfstoffen zu verbessern. Die Forschenden werden die T-Zellen und antigenpräsentierenden Zellen älterer Personen analysieren, um die zellulären und molekularen Mechanismen zu entschlüsseln, die für die schlechte Impfreaktion verantwortlich sind.

Ziel

A major accomplishment of modern society is the extension of human life expectancy. However, this creates a new challenge for medical science, to facilitate healthy ageing. With age, the function of the immune system declines, rendering older people more susceptible to infections and less able to benefit from vaccination. Indeed, improving vaccine efficacy is key to reducing infection-related morbidity in older people. To date, the complexity of the ageing process has hindered attempts to fulfil this ambition, and thus innovative approaches are required to better understand the underlying biology.

Vaccination creates protective immunity by inducing the germinal centre (GC) response, an intricate process that generates memory B cells and long-lived antibody-secreting plasma cells. However, the GC response declines with age. Strikingly, it is not B cells that are responsible for the age-dependent decline in the GC response, but the CD4+ T cells and the microenvironment of older individuals. The cellular and molecular mechanisms responsible, however, remain unknown. In the GC there are two subsets of specialised CD4+ T cells, T follicular helper (Tfh) and T follicular regulatory (Tfr) cells, which act in opposition to promote and suppress the response, respectively. I hypothesise that aberrant formation and/or function of Tfh and Tfr cells contribute to impaired GC responses during ageing, and that these cells could be targeted to improve vaccine efficacy. Furthermore, the most prominent age-dependent change in secondary lymphoid tissues is the accumulation of senescent cells, which can modify immune function and tissue structure. I hypothesise that accumulation of senescent cells alters this microenvironment, impairing the response to vaccination. I will test these hypotheses using new mouse models and innovative approaches to human research, in the expectation that the knowledge obtained will promote healthy ageing and uncover novel aspects of GC biology.

Finanzierungsplan

ERC-STG - Starting Grant

Koordinator

THE BABRAHAM INSTITUTE
Netto-EU-Beitrag
€ 1 499 997,95
Adresse
Babraham hall
CB22 3AT Cambridge
Vereinigtes Königreich

Auf der Karte ansehen

Region
East of England East Anglia Cambridgeshire CC
Aktivitätstyp
Research Organisations
Links
Gesamtkosten
€ 1 499 997,95

Begünstigte (1)