Role of immune cells in the removal of deleterious senescent cells

Kale, Abhijit; Sharma, Amit; Stolzing, Alexandra; Desprez, Pierre-Yves; Campisi, Judith

doi:10.1186/s12979-020-00187-9

Cited by 202 publications

(120 citation statements)

References 121 publications

(140 reference statements)

Supporting

Mentioning

115

Contrasting

Unclassified

Order By: Relevance

“…After wound healing/ tissue remodeling is completed, senescent cells are removed. This is normally performed by the immune system and it seems that various cell types from macrophages and natural killer cells to cytotoxic T cells are involved in the process (Burton & Stolzing, 2018;Kale et al, 2020;Yun et al, 2015). Indeed, immunocompromised mice that have defective cytotoxic T cells develop chronic inflammation, accumulate senescent cells much faster and die 20% earlier (Ovadya et al, 2018).…”

Section: Cellul Ar S Ene Scen Ce a S Tissue Repair And Remodeling Mecmentioning

confidence: 99%

“…Furthermore, senescent cells are quite heterogeneous regarding their transcriptional profile and SASP composition, depending on the original cell type and type of induction of cellular senescence (Coppe et al, 2010;Hernandez-Segura et al, 2017, which complicates a common recognition mechanism even more. Various mechanisms exist by which cells of the immune system recognize senescent cells (Burton & Stolzing, 2018;Kale et al, 2020), and recent observations indicate that senescent cells can actively influence their own clearance. Pereira et al (2019) showed that senescent cells express the non-canonical MHC molecule HLA-E, which interacts with inhibitory receptors on natural killer and CD8 cells, leading to a diminished immune clearance.…”

Section: Scenario 3: the Immune System Cannot Recognize All Senescementioning

confidence: 99%

See 1 more Smart Citation

On the evolution of cellular senescence

2020

View full text Add to dashboard Cite

It is 60 years since the phenomenon of cell replicative senescence was discovered in human diploid fibroblasts (Hayflick & Moorhead, 1961). At that time, the accepted view was that cultured cells would grow indefinitely if provided with suitable conditions. After the validity of the new discovery was accepted, it was shown that an important difference existed between "normal" cells, which have finite replicative life spans, and malignantly "transformed" cells, which are able to proliferate indefinitely. Although poorly understood, senescence was suggested to be evidence of intrinsic aging occurring at the cellular level. This was supported by reports that cell replicative life span (expressed as the number of population doublings) was correlated with (a) the longevity of the species from which cultures were grown (Röhme, 1981), and (b) the age of the donor from which the biopsies were obtained (Martin et al., 1970). Although a simple relationship between organismal aging and the idea of cells merely running out

show abstract

Section: Cellul Ar S Ene Scen Ce a S Tissue Repair And Remodeling Mecmentioning

confidence: 99%

Section: Scenario 3: the Immune System Cannot Recognize All Senescementioning

confidence: 99%

On the evolution of cellular senescence

2020

View full text Add to dashboard Cite

show abstract

“…Due to their resistance to apoptosis [ 66 ], senescent cells persist in tissues and they can promote a negative impact on their environment through various mechanisms. First, as mentioned above, senescent cells become proinflammatory foci scattered throughout tissues promoting immune cell infiltration that results in collateral tissue damage over time [ 67 , 68 ]. Besides the exacerbation of local inflammation, senescent cells also constitute an important source of factors that contribute to age-related systemic chronic inflammation [ 69 ].…”

Section: Cellular Senescencementioning

confidence: 99%

“…Besides pathogenic bacteria elimination, the host immune system detects and removes damaged cells, including senescent cells. This process is called senescent cell immune surveillance, in which the release of senescence-associated proinflammatory signals play essential roles in attracting neutrophils, macrophages, lymphocytes and natural killer cells [ 67 , 83 , 85 ]. However, reduced immunosurveillance of senescent cells accelerates their accumulation, resulting in gradual tissue deterioration and contributing to the development of different chronic pathologies [ 65 ].…”

Section: Periodontal Inflammation Creates a Permissive Environmentmentioning

confidence: 99%

Periodontal Disease and Senescent Cells: New Players for an Old Oral Health Problem?

Aquino-Martínez

Khosla

Farr

et al. 2020

IJMS

View full text Add to dashboard Cite

The recent identification of senescent cells in periodontal tissues has the potential to provide new insights into the underlying mechanisms of periodontal disease etiology. DNA damage-driven senescence is perhaps one of the most underappreciated delayed consequences of persistent Gram-negative bacterial infection and inflammation. Although the host immune response rapidly protects against bacterial invasion, oxidative stress generated during inflammation can indirectly deteriorate periodontal tissues through the damage to vital cell macromolecules, including DNA. What happens to those healthy cells that reside in this harmful environment? Emerging evidence indicates that cells that survive irreparable genomic damage undergo cellular senescence, a crucial intermediate mechanism connecting DNA damage and the immune response. In this review, we hypothesize that sustained Gram-negative bacterial challenge, chronic inflammation itself, and the constant renewal of damaged tissues create a permissive environment for the abnormal accumulation of senescent cells. Based on emerging data we propose a model in which the dysfunctional presence of senescent cells may aggravate the initial immune reaction against pathogens. Further understanding of the role of senescent cells in periodontal disease pathogenesis may have clinical implications by providing more sophisticated therapeutic strategies to combat tissue destruction.

show abstract

“…Macrophages are recruited to the site of injury by chemokine gradients and various adhesion molecules, where they carry out their role as scavenger cells that phagocytose cellular debris and invading cells, alongside other apoptotic cells, in response to tissue injury. Importantly, macrophages are key for the clearance of senescent cells following injury [ 48 , 49 ], as well as an important source of chemokines, matrix metalloproteinases (MMPs) and other inflammatory mediators which drive the initial cellular response [ 50 ]. Current models suggest that senescence initiates tissue modelling/remodelling by recruiting immune cells through the SASP, where macrophages clear senescent cells, allowing for repopulation by progenitor cells and regeneration of the damaged tissue [ 25 , 26 , 51 ].…”

Section: Introductionmentioning

confidence: 99%

Senescent cells and macrophages: key players for regeneration?

Elder

Emmerson

2020

Open Biol.

View full text Add to dashboard Cite

Over the last decade, our understanding of the physiological role of senescent cells has drastically evolved, from merely indicators of cellular stress and ageing to having a central role in regeneration and repair. Increasingly, studies have identified senescent cells and the senescence-associated secretory phenotype (SASP) as being critical in the regenerative process following injury; however, the timing and context at which the senescence programme is activated can lead to distinct outcomes. For example, a transient induction of senescent cells followed by rapid clearance at the early stages following injury promotes repair, while the long-term accumulation of senescent cells impairs tissue function and can lead to organ failure. A key role of the SASP is the recruitment of immune cells to the site of injury and the subsequent elimination of senescent cells. Among these cell types are macrophages, which have well-documented regulatory roles in all stages of regeneration and repair. However, while the role of senescent cells and macrophages in this process is starting to be explored, the specific interactions between these cell types and how these are important in the different stages of injury/reparative response still require further investigation. In this review, we consider the current literature regarding the interaction of these cell types, how their cooperation is important for regeneration and repair, and what questions remain to be answered to advance the field.

show abstract

Role of immune cells in the removal of deleterious senescent cells

Cited by 202 publications

References 121 publications

On the evolution of cellular senescence

On the evolution of cellular senescence

Periodontal Disease and Senescent Cells: New Players for an Old Oral Health Problem?

Senescent cells and macrophages: key players for regeneration?

Contact Info

Product

Resources

About