Litcius/Paper detail

Serum from Older Adults Increases Apoptosis and Molecular Aging Markers in Human Hippocampal Progenitor Cells

Chiara de Lucia, Tytus Murphy, Aleksandra Maruszak, Paul Wright, Timothy R. Powell, Naomi Hartopp, Simone de Jong, Michael O’Sullivan, Gerome Breen, Jack Price, Simon Lovestone, Sandrine Thuret

2021Aging and Disease18 citationsDOIOpen Access PDF

Abstract

effect of the human systemic milieu on human hippocampal progenitor cells (HPCs) using human serum from early adulthood, mid-life and older age. We showed that neuroblast number following serum treatment is predictive of larger dentate gyrus, CA3, CA4 and whole hippocampus volumes and that allogeneic human serum from asymptomatic older individuals induced a two-fold increase in apoptotic cell death of HPCs compared with serum from young adults. General linear models revealed that variability in markers of proliferation and differentiation was partly attributable to use of antihypertensive medication and very mild cognitive decline among older subjects. Finally, using an endophenotype approach and whole-genome expression arrays, we showed upregulation of established and novel ageing molecular hallmarks in response to old serum. Serum from older subjects induced a wide range of cellular and molecular phenotypes, likely reflecting a lifetime of environmental exposures. Our findings support a role for the systemic enviroment in neural stem cell maintenance and are in line with others highlighting a distinction between neurobiological and chronological ageing. Finally, the herein described serum assay can be used by future studies to further analyse the effect of environmental exposures as well as to determine the role of the systemic environment in health and disease.

Topics & Concepts

Hippocampal formationProgenitor cellDentate gyrusNeural stem cellAgeingCognitive declineMedicineStem cellApoptosisDownregulation and upregulationHippocampusImmunologyNeuroscienceDementiaBiologyDiseaseInternal medicineCell biologyGeneticsGeneNeurogenesis and neuroplasticity mechanismsMicroRNA in disease regulationAnesthesia and Neurotoxicity Research