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Systems biology of the individual stochastic timer of aging

Projektbeschreibung

Forschung zur Umkehrung von Alterungsprozessen

Ist es möglich, das biologische Alter eines Körpers zu verringern? Warum unterscheidet sich der Krankheits- und Todeszeitpunkt genetisch identischer Organismen, selbst wenn sie unter gleichen Bedingungen aufwachsen? Dies sind Fragen, die sich das EU-finanzierte Projekt AgingTimer stellt, da insbesondere Altern einer der größten Risikofaktoren für Arbeitsunfähigkeit und Tod ist. Das Projekt soll den stochastischen Zeitgeber für Altern entschlüsseln und Methoden entwickeln, um ihn zurückzusetzen. Schwerpunkte sind die mathematische Definition des stochastischen Zeitgebers für Alterungsprozesse sowie systembiologische Analysen individueller Verhaltensneurobiologie. Weitere Themen des Projekts sind molekulare und soziale Faktoren, die sich individuell unterscheiden. Untersucht wird hierfür der sozioökonomische Status des Menschen und die soziale Rangordnung bei Mäusen.

Ziel

Aging is the biggest risk factor for frailty and death. However, we lack basic understanding of a fundamental question: Why do genetically identical organisms raised in the same conditions get sick and die at different times? If we understood the stochastic timer that drives aging in each individual, we could devise ways to turn back the timer and treat age-related diseases, extending the healthy lifespan. This requires addressing both molecular and social factors that vary between individuals, such as socioeconomic status in humans and social ranking in mice, which impact every aspect of aging. This synergy program aims to identify the stochastic timer of aging and develop methods to read the timer and turn it back. We use mice as a tractable organism relevant to human aging, and combine three disciplines: 1) systems biology to mathematically define the stochastic timer of aging and the basic concepts needed to understand its production, removal and noise processes; 2) neurobiology of behavioral individuality; and 3) biology of cellular senescence, which studies the most promising candidate for the timer: senescent cells that accumulate with age, causing chronic inflammation and whose removal delays age-related decline. To pinpoint the timer, we will follow the natural variability of large cohorts of genetically identical mice, tracked across the lifespan by video and RFID tags. We will measure a battery of behavioral, physiological and molecular parameters, as well as senescent cells in multiple organs throughout life. We will use new mouse models that allow us to visualize, pull down and ablate senescent cells, to provide full molecular profiles of senescent cells in different organs and to characterize their immune-surveillance mechanisms. This study will provide basic understanding of the timer of aging and provide ways to read the timer. Moreover, we will offer new ways to set back the timer in order to address age-related diseases and functional decline.

Finanzierungsplan

ERC-SyG - Synergy grant

Gastgebende Einrichtung

WEIZMANN INSTITUTE OF SCIENCE
Netto-EU-Beitrag
€ 8 687 500,00
Adresse
HERZL STREET 234
7610001 Rehovot
Israel

Auf der Karte ansehen

Aktivitätstyp
Higher or Secondary Education Establishments
Links
Gesamtkosten
€ 8 687 500,00

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