Dynamic and scalable assessment of the senescence-associated secretory phenotype (SASP).

Abstract

Dual-faced cellular senescence is responsible for beneficial biological processes and for age-related pathologies. Senescent cells under stable proliferation arrest develop numerous senescence-associated phenotypes such as the potent pro-inflammatory secretome called the senescence-associated secretory phenotype (SASP). The SASP shapes the senescent microenvironment and influences the biology of adjacent cells, including the modulation of proliferation and migration/invasion, reinforcement/induction of peripheral senescence, and immune cell activity or recruitment. The SASP is a dynamic process with multiple waves of secreted factors described to interlace over a period of many days. Whether the senescence phenotype reaches a mature stable state remains controversial. Overall, the complexity of the context-dependent and timely SASP compositions and its varied microenvironmental impact demonstrate the importance of properly assessing SASP over time. In this chapter, we focus on scalable and dynamic experimental procedures to prepare SASP conditioned medium over time from cells receiving senescence-inducing stimuli. This SASP-containing conditioned medium can be used to assess the composition of the SASP, study SASP-related signaling pathways or evaluate the paracrine microenvironmental impact of senescent cells.