Metabolic Dysregulation as Biomarker of Frailty: Role of the Mitochondrial Dysfunction (FRAMITO)

Study type: observational prospective study. Primary aim: is to evaluate the presence of mitochondrial dysfunction related to oxidative stress and its possible role in frailty, with and without multimorbidity.

Primary endpoint: mitochondrial dysfunction in frailty. Secondary aims: to combine untargeted metabolomics-based approaches and functional studies on specific mitochondrial dysfunctions performed on PBMCs and PBMC subpopulations (B lymphocytes, T lymphocytes and monocytes).

The research activities are organized in the following tasks:

• Task 1, Patient Enrollment: We will enroll individuals aged 65 years or older from geriatric outpatient clinics or geriatric wards. For each individual, we will perform an assessment of frailty and multimorbidity, and collect blood samples to isolate Peripheral Blood Mononuclear Cells (PBMCs). Three categories of individuals will be enrolled: 25 non-frail individuals without multimorbidity (NFWoM), 25 frail individuals with multimorbidity (FWM), and 25 frail individuals without multimorbidity (FWoM).
• Task 2, Separation of PBMC Subpopulations: T lymphocytes, B lymphocytes, and monocytes will be separated from frozen PBMCs using the Cell Sorting Facility for Fluorescence-Activated Cell Sorting (FACS) separation and the MoFlo Astrios cell sorter. The analyses on CD45+/CD3+/CD19-/CD14- T lymphocytes, CD45+/CD3-/CD19+/CD14- B lymphocytes, CD45+/CD3-/CD19-/CD14+ monocytes.
• Task 3, Mitochondrial Dysfunction Analysis on PBMCs and PBMC Subpopulations: For each individual, mitochondrial dysfunction will be evaluated by analyzing mtDNA damage (by Real-Time PCR), mitochondrial mass alteration (by Mitotracker staining), and intracellular and mitochondrial Reactive Oxygen Species (by DCF and MitoSOX staining). Moreover, we will evaluate alteration of glycolytic and mitochondrial metabolism using Agilent Seahorse Extracellular Flux Analyzer XFe96.
• Task 4, Untargeted Metabolomics on PBMCs and PBMC Subpopulations: To assess metabolic signature of PBMCs and subpopulations and highlight metabolic dysregulations linked to frailty, we will perform untargeted LC-MS-based metabolomics on PBMCs, T lymphocytes, B lymphocytes, and monocytes. The analysis on the polar metabolome will allow us to understand better the metabolic alterations associated with mitochondrial dysregulation.
• Task 5, Characterization of Biomarkers and Molecular Mechanism of Frailty: The potential biomarkers of frailty and the molecular mechanisms involved in mitochondrial dysfunction will be studied using statistical and machine learning techniques on molecular, metabolic and clinical data. This step will help characterize clinical phenotypes based on molecular measurements.