Cellular reprogramming as a tool to model human aging in a dish
PR Pitrez, LM Monteiro, O Borgogno, X Nissan… - Nature …, 2024 - nature.com
The design of human model systems is highly relevant to unveil the underlying mechanisms
of aging and to provide insights on potential interventions to extend human health and life …
of aging and to provide insights on potential interventions to extend human health and life …
Cellular reprogramming: A new way to understand aging mechanisms
Increased life expectancy, due to the rise in life quality and the decline in mortality rates, is
leading to a society in which the population aged 60 and over is growing more rapidly than …
leading to a society in which the population aged 60 and over is growing more rapidly than …
Is aging a barrier to reprogramming? Lessons from induced pluripotent stem cells
P Phanthong, H Raveh-Amit, T Li, Y Kitiyanant… - Biogerontology, 2013 - Springer
The discovery of induced pluripotent stem cells (iPSCs) has the potential to revolutionize the
field of regenerative medicine. In the past few years, iPSCs have been the subject of …
field of regenerative medicine. In the past few years, iPSCs have been the subject of …
[HTML][HTML] Aging and reprogramming: a two-way street
S Mahmoudi, A Brunet - Current opinion in cell biology, 2012 - Elsevier
Aging is accompanied by the functional decline of cells, tissues, and organs, as well as a
striking increase in a wide range of diseases. The reprogramming of somatic cells to …
striking increase in a wide range of diseases. The reprogramming of somatic cells to …
How can aging be reversed? Exploring rejuvenation from a damage‐based perspective
B Zhang, VN Gladyshev - Advanced Genetics, 2020 - Wiley Online Library
Advanced age is associated with accumulation of damage and other deleterious changes
and a consequential systemic decline of function. This decline affects all organs and …
and a consequential systemic decline of function. This decline affects all organs and …
Programming and reprogramming cellular age in the era of induced pluripotency
L Studer, E Vera, D Cornacchia - Cell stem cell, 2015 - cell.com
The ability to reprogram adult somatic cells back to pluripotency presents a powerful tool for
studying cell-fate identity and modeling human disease. However, the reversal of cellular …
studying cell-fate identity and modeling human disease. However, the reversal of cellular …
Aging in a dish: iPSC-derived and directly induced neurons for studying brain aging and age-related neurodegenerative diseases
Age-associated neurological diseases represent a profound challenge in biomedical
research as we are still struggling to understand the interface between the aging process …
research as we are still struggling to understand the interface between the aging process …
Partial reprogramming induces a steady decline in epigenetic age before loss of somatic identity
Induced pluripotent stem cells (IPSCs), with their unlimited regenerative capacity, carry the
promise for tissue replacement to counter age‐related decline. However, attempts to realize …
promise for tissue replacement to counter age‐related decline. However, attempts to realize …
iPSC technology to study human aging and aging-related disorders
GH Liu, Z Ding, JCI Belmonte - Current opinion in cell biology, 2012 - Elsevier
A global aging population, normally accompanied by a high incidence of aging-associated
diseases, has prompted a renewed interest in basic research on human aging. Although …
diseases, has prompted a renewed interest in basic research on human aging. Although …
iPSCs: on the road to reprogramming aging
C Soria-Valles, C López-Otín - Trends in Molecular Medicine, 2016 - cell.com
Aging is characterized by irreversible loss of physiological integrity, often accompanied by
an organism's loss of function and increased vulnerability to death. Defects in the …
an organism's loss of function and increased vulnerability to death. Defects in the …