Senescent cells expose and secrete an oxidized form of membrane-bound vimentin as revealed by a natural polyreactive antibody

Abstract: Studying the phenomenon of cellular senescence has been hindered by the lack of senescence-specific markers. As such, detection of proteins informally associated with senescence accompanies the use of senescence-associated β-galactosidase as a collection of semiselective markers to monitor the presence of senescent cells. To identify novel biomarkers of senescence, we immunized BALB/c mice with senescent mouse lung fibroblasts and screened for antibodies that recognized senescence-associated cell-surface antig… Show more

“…For example, oxidized vimentin 157 , DCR2 (REF. 158 ), density-enhanced phosphatase 1 (DEP1; also known as PTPRJ) 159 and β2 microglobulin (B2MG) 159 are overexpressed at the SNC cell surface and could be used for directing local accumulation of senolytics.…”

Senescent cells: an emerging target for diseases of ageing

“…For example, oxidized vimentin 157 , DCR2 (REF. 158 ), density-enhanced phosphatase 1 (DEP1; also known as PTPRJ) 159 and β2 microglobulin (B2MG) 159 are overexpressed at the SNC cell surface and could be used for directing local accumulation of senolytics.…”

Senescent cells: an emerging target for diseases of ageing

“…66 The increased zeta potential of MCF-7 cells does not likely arise from the interaction with PvD 1 only, but also from the secretion of senescence-associated-secretoryphenotype (SASP) factors, including vimentin. This protein is evidenced to accumulate on the surface of senescent cells 67 and is known to have preferential and strong affinity to negatively charged phospholipids. 68 Therefore, vimentin, when presented on the cell surface of senescent cells, associates with anionic POPS and phosphatidylinositol (PI) shielding their negative charge and thus contributing to the partial neutralization of the membrane charge density.…”

Plant defensin PvD₁ modulates the membrane composition of breast tumour-derived exosomes

“…Recent high-throughput approaches to isolate senescent cells from tissues or body fluids, based on their increased cell size, appear more scalable, robust and specific than the ones based on markers that are specific to senescent cells. 6,7,[10][11][12][13] Our optimized iodixanol gradient-based centrifugation protocol to isolate DXR-induced senescent HCC cells is simple, quick (~1 hour) and robust. Our protocol is also unique because, unlike previous approaches, it permits cells to be re-plated on collagencoated flasks, despite their low or null proliferative capacity.…”

“…Attempts to isolate senescent cells using surface markers (DcR2, DPP4, oxidized vimentin) or fluorescent ubiquitination‐based cell‐cycle indicator technology have shown promise. However, simple methods to isolate and culture senescent cells—despite their low or null proliferative capacity—are lacking, particularly in the context of chemotherapy‐induced senescence for cancer treatment.…”

Isolation of senescent cells by iodixanol (OptiPrep) density gradient‐based separation