This is a new Program Project to investigate the role that age-related changes in autophagy play in the functional alterations and inefficient response to immunological challenges and to stress of old organisms. Four Projects involving 4 faculty members from 3 academic departments are proposed. These projects will share ideas, techniques and experimental models. Completion of most specific aims requires the participation of members from several of the projects. Degradation of intracellular components in lysosomes, or autophagy, is essential for cellular homeostasis, as an energy source when nutrients are sparse and in response to stress. The activity of the two best characterized types of autophagy, macroautophagy and chaperone-mediated autophagy, is altered in old organisms. We hypothesize that this impairment in autophagy could be behind the functional deterioration and the inability to respond to immunological challenges and to stress in old organism. To test this hypothesis we will: 1) characterize the involvement of different autophagic pathways in liver (Project 1 and 4), brain (P1) and the immune system (P2 and 3), under basal or stress conditions;2) analyze the changes with age in the autophagic system in these organs (P1-4);and 3) determine the contribution of these changes to the metabolic syndrome of aging (P4), the gradual deterioration of cognitive function (P1) and to the failure with age of two essential immune functions, antigen processing and presentation (P2) and T helper cell activation and tolerance (P3). These studies will require the synergistic cooperation of groups with expertise in autophagy, dendritic cell function, T cell biology, steatotic liver disease, lipid metabolism and oxidative cellular injury. This Program includes three Cores: the Administrative Core (Core A) provides the necessary secretarial and bookkeeping functions;the Analytical Imaging Core (Core B) provides state-of-the-art microscopy and imaging services, and the Aging and Transgenic Animal Core (Core C) provides maintenance, breeding and genotyping of the transgenic and aging mouse colonies required for this project. All four Projects are concerned with interrelated areas of cellular metabolism, molecular and cellular immunology and the biology of aging. Each proposed project represents collaborative efforts between independent investigators that will extend their individual expertise into areas that could not otherwise be effectively investigated. The four groups have been working together and will interact synergistically. Significance: These studies may ultimately lead to fundamental insights for understanding, treating or preventing the metabolic alterations and declined cognitive and immune function characteristic of elders.

Agency
National Institute of Health (NIH)
Institute
National Institute on Aging (NIA)
Type
Research Program Projects (P01)
Project #
5P01AG031782-03
Application #
8053240
Study Section
Special Emphasis Panel (ZAG1-ZIJ-2 (O3))
Program Officer
Velazquez, Jose M
Project Start
2009-02-15
Project End
2014-01-31
Budget Start
2011-02-15
Budget End
2012-01-31
Support Year
3
Fiscal Year
2011
Total Cost
$2,002,853
Indirect Cost
Name
Albert Einstein College of Medicine
Department
Anatomy/Cell Biology
Type
Schools of Medicine
DUNS #
110521739
City
Bronx
State
NY
Country
United States
Zip Code
10461
Walters, Ryan O; Arias, Esperanza; Diaz, Antonio et al. (2018) Sarcosine Is Uniquely Modulated by Aging and Dietary Restriction in Rodents and Humans. Cell Rep 25:663-676.e6
Mocholi, Enric; Dowling, Samuel D; Botbol, Yair et al. (2018) Autophagy Is a Tolerance-Avoidance Mechanism that Modulates TCR-Mediated Signaling and Cell Metabolism to Prevent Induction of T Cell Anergy. Cell Rep 24:1136-1150
Rodriguez-Muela, Natalia; Parkhitko, Andrey; Grass, Tobias et al. (2018) Blocking p62-dependent SMN degradation ameliorates spinal muscular atrophy disease phenotypes. J Clin Invest 128:3008-3023
Tekirdag, Kumsal; Cuervo, Ana Maria (2018) Chaperone-mediated autophagy and endosomal microautophagy: Joint by a chaperone. J Biol Chem 293:5414-5424
Theofilas, Panos; Ehrenberg, Alexander J; Nguy, Austin et al. (2018) Probing the correlation of neuronal loss, neurofibrillary tangles, and cell death markers across the Alzheimer's disease Braak stages: a quantitative study in humans. Neurobiol Aging 61:1-12
Kaushik, Susmita; Cuervo, Ana Maria (2018) The coming of age of chaperone-mediated autophagy. Nat Rev Mol Cell Biol 19:365-381
Amengual, Jaume; Guo, Liang; Strong, Alanna et al. (2018) Autophagy Is Required for Sortilin-Mediated Degradation of Apolipoprotein B100. Circ Res 122:568-582
Bejarano, Eloy; Murray, John W; Wang, Xintao et al. (2018) Defective recruitment of motor proteins to autophagic compartments contributes to autophagic failure in aging. Aging Cell :e12777
Gong, Zhenwei; Tasset, Inmaculada; Diaz, Antonio et al. (2018) Humanin is an endogenous activator of chaperone-mediated autophagy. J Cell Biol 217:635-647
Dowling, Samuel D; Macian, Fernando (2018) Autophagy and T cell metabolism. Cancer Lett 419:20-26

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