Modulation of Replicative Senescence of Diploid Human Cells by Nuclear ERK Signaling

Overview

Journal J Biol Chem

Specialty Biochemistry

Date 2006 Dec 6

PMID 17145763

Citations 28

Authors

Maria Tresini

Antonello Lorenzini

Claudio Torres

Vincent J Cristofalo

Affiliations

Soon will be listed here.

Abstract

Normal somatic cells have a limited replicative lifespan, and serial subcultivation ultimately results in senescence. Senescent cells are irreversibly growth-arrested and show impaired responses to mitogens. Activation of the ERK signaling pathway, an absolute requirement for cell proliferation, results in nuclear relocalization of active ERKs, an event impaired in senescent fibroblasts. This impairment coincides with increased activity of the nuclear ERK phosphatase MKP2. Here we show that replicative lifespan can be altered by changes in nuclear ERK activity. Ectopic expression of MKP2 results in premature senescence. In contrast, knock-down of MKP2 expression, through transduction of MKP2 sequence-specific short hairpin RNA, or expression of the phosphatase resistant ERK2(D319N) mutant, abrogates the effects of increased endogenous MKP2 levels and senescence is postponed. Nuclear targeting of ERK2(D319N) significantly augments its effects and the transduced cultures show higher than 60% increase in replicative lifespan compared with cultures transduced with wt ERK2. Long-lived cultures senesce with altered molecular characteristics and retain the ability to express c-fos, and Rb is maintained in its inactive form. Our results support that MKP2-mediated inactivation of nuclear ERK2 represents a key event in the establishment of replicative senescence. Although it is evident that senescence can be imposed through multiple mechanisms, restoration of nuclear ERK activity can bypass a critical senescence checkpoint and, thus, extend replicative lifespan.

Citing Articles

Dual-Specificity Phosphatase 4 Promotes Malignant Features in Colorectal Cancer Through Cyclic-AMP Response Element Binding Protein/Protein Kinase CAMP-Activated Catalytic Subunit Beta Activation.

Pei W, Yin W, Yu T, Zhang X, Zhang Q, Yang X Dig Dis Sci. 2024; 69(8):2856-2874.

PMID: 38824257 DOI: 10.1007/s10620-024-08481-y.

A guide to ERK dynamics, part 2: downstream decoding.

Ram A, Murphy D, DeCuzzi N, Patankar M, Hu J, Pargett M Biochem J. 2023; 480(23):1909-1928.

PMID: 38038975 PMC: 10754290. DOI: 10.1042/BCJ20230277.

Emerging Therapeutic Approaches to Target the Dark Side of Senescent Cells: New Hopes to Treat Aging as a Disease and to Delay Age-Related Pathologies.

Khalil R, Diab-Assaf M, Lemaitre J Cells. 2023; 12(6).

PMID: 36980256 PMC: 10047596. DOI: 10.3390/cells12060915.

Antitumor effect of 4MU on glioblastoma cells is mediated by senescence induction and CD44, RHAMM and p-ERK modulation.

Pibuel M, Poodts D, Diaz M, Molinari Y, Franco P, Hajos S Cell Death Discov. 2021; 7(1):280.

PMID: 34628469 PMC: 8502173. DOI: 10.1038/s41420-021-00672-0.

Germline Stem Cell Activity Is Sustained by SALL4-Dependent Silencing of Distinct Tumor Suppressor Genes.

Chan A, La H, Legrand J, Makela J, Eichenlaub M, De Seram M Stem Cell Reports. 2017; 9(3):956-971.

PMID: 28867346 PMC: 5599261. DOI: 10.1016/j.stemcr.2017.08.001.