Number of leprosy reactions during treatment: clinical correlations and laboratory diagnosis

Summary Cellular senescence acts as a potent mechanism of tumor suppression; however, its functional contribution to non-cancer pathologies has not been examined. Here we show that senescent cells accumulate in murine livers treated to produce fibrosis, a precursor pathology to cirrhosis. The senescent cells are derived primarily from activated hepatic stellate cells, which initially proliferate in response to liver damage and produce the extracellular matrix deposited in the fibrotic scar. In mice lacking key senescence regulators, stellate cells continue to proliferate, leading to excessive liver fibrosis. Furthermore, senescent activated stellate cells exhibit gene expression profile consistent with cell cycle exit, reduced secretion of extracellular matrix components, enhanced secretion of extracellular matrix degrading enzymes, and enhanced immune surveillance. Accordingly natural killer cells preferentially kill senescent activated stellate cells in vitro and in vivo, thereby facilitating the resolution of fibrosis. Therefore, the senescence program limits the fibrogenic response to acute tissue damage.

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Senescence of Activated Stellate Cells Limits Liver Fibrosis

Krizhanovsky¹,

Yon²,

Dickins³

et al. 2008

Cell

171

293

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Granule exocytosis mediates immune surveillance of senescent cells

et al. 2012

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Implications of Cellular Senescence in Tissue Damage Response, Tumor Suppression, and Stem Cell Biology

Krizhanovsky¹,

Xue²,

Zender³

et al. 2008

Cold Spring Harbor Symposia on Quantitative Biology

118

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Cellular senescence is characterized by an irreversible cell cycle arrest that, when bypassed by mutation, contributes to cellular immortalization. Activated oncogenes induce a hyperproliferative response, which might be one of the senescence cues. We have found that expression of such an oncogene, Akt, causes senescence in primary mouse hepatoblasts in vitro. Additionally, AKT-driven tumors undergo senescence in vivo following p53 reactivation and show signs of differentiation. In another in vivo system, i.e., liver fibrosis, hyperproliferative signaling through AKT might be a driving force of the senescence in activated hepatic stellate cells. Senescent cells up-regulate and secrete molecules that, on the one hand, can reinforce the arrest and, on the other hand, can signal to an innate immune system to clear the senescent cells. The mechanisms governing senescence and immortalization are overlapping with those regulating self-renewal and differentiation. These respective control mechanisms, or their disregulation, are involved in multiple pathological conditions including fibrosis, wound healing, and cancer. Understanding extracellular cues that regulate these processes may enable new therapies for these conditions.

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Comparison of the anti‐apoptotic effects of Bcr‐Abl, Bcl‐2 and Bcl‐x_L following diverse apoptogenic stimuli

et al. 2003

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Ectopic expression of Bcr-Abl, Bcl-2 or Bcl-x L in HL-60 cells conferred resistance to apoptosis against a variety of death-inducing agents. Bcr-Abl-mediated interference with mitochondrial events was con¢rmed by the analysis of the loss of mitochondrial transmembrane potential and cytochrome c release. HL-60.Bcr-Abl cells were extremely resistant to all apoptogenic stimuli tested, even in circumstances where HL-60.Bcl-2 or HL-60.Bcl-x L cells were only partially protected from apoptosis. The levels of Mcl-1, Bax, Bid, Akt, c-IAP-1, c-IAP-2, XIAP and c-FLIP were compared in all HL-60 lines. Our ¢ndings show that Bcr-Abl is a more powerful anti-apoptotic molecule than Bcl-2 or Bcl-x L .

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Proteomic and functional analysis identifies galectin-1 as a novel regulatory component of the cytotoxic granule machinery

et al. 2017

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Secretory granules released by cytotoxic T lymphocytes (CTLs) are powerful weapons against intracellular microbes and tumor cells. Despite significant progress, there is still limited information on the molecular mechanisms implicated in target-driven degranulation, effector cell survival and composition and structure of the lytic granules. Here, using a proteomic approach we identified a panel of putative cytotoxic granule proteins, including some already known granule constituents and novel proteins that contribute to regulate the CTL lytic machinery. Particularly, we identified galectin-1 (Gal1), an endogenous immune regulatory lectin, as an integral component of the secretory granule machinery and unveil the unexpected function of this lectin in regulating CTL killing activity. Mechanistic studies revealed the ability of Gal1 to control the non-secretory lytic pathway by influencing Fas–Fas ligand interactions. This study offers new insights on the composition of the cytotoxic granule machinery, highlighting the dynamic cross talk between secretory and non-secretory pathways in controlling CTL lytic function.

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Conversion of CD95 (Fas) Type II into Type I signaling by sub-lethal doses of cycloheximide

Brumatti

Yon

Castro

et al. 2008

Experimental Cell Research

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CD95 (Fas/Apo-1)-mediated apoptosis was shown to occur through two distinct pathways. One involves a direct activation of caspase-3 by large amounts of caspase-8 generated at the DISC (Type I cells). The other is related to the cleavage of Bid by low concentration of caspase-8, leading to the release of cytochrome c from mitochondria and the activation of caspase-3 by the cytochrome c/APAF-1/caspase-9 apoptosome (Type II cells). It is also known that the protein synthesis inhibitor cycloheximide (CHX) sensitizes Type I cells to CD95-mediated apoptosis, but it remains contradictory whether this effect also occurs in Type II cells. Here, we show that sub-lethal doses of CHX render both Type I and Type II cells sensitive to the apoptogenic effect of anti-CD95 antibodies but not to chemotherapeutic drugs. Moreover, Bcl-2-positive Type II cells become strongly sensitive to CD95-mediated apoptosis by the addition of CHX to the cell culture. This is not the result of a restraint of the anti-apoptotic effect of Bcl-2 at the mitochondrial level since CHX-treated Type II cells still retain their resistance to chemotherapeutic drugs. Therefore, CHX treatment is granting the CD95-mediated pathway the ability to bypass the mitochondria requirement to apoptosis, much alike to what is observed in Type I cells.

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Monica Yon

Senescence of Activated Stellate Cells Limits Liver Fibrosis

Senescence of Activated Stellate Cells Limits Liver Fibrosis

Granule exocytosis mediates immune surveillance of senescent cells

Implications of Cellular Senescence in Tissue Damage Response, Tumor Suppression, and Stem Cell Biology

Comparison of the anti‐apoptotic effects of Bcr‐Abl, Bcl‐2 and Bcl‐x_L following diverse apoptogenic stimuli

Proteomic and functional analysis identifies galectin-1 as a novel regulatory component of the cytotoxic granule machinery

Conversion of CD95 (Fas) Type II into Type I signaling by sub-lethal doses of cycloheximide

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Monica Yon

Senescence of Activated Stellate Cells Limits Liver Fibrosis

Senescence of Activated Stellate Cells Limits Liver Fibrosis

Granule exocytosis mediates immune surveillance of senescent cells

Implications of Cellular Senescence in Tissue Damage Response, Tumor Suppression, and Stem Cell Biology

Comparison of the anti‐apoptotic effects of Bcr‐Abl, Bcl‐2 and Bcl‐xL following diverse apoptogenic stimuli

Proteomic and functional analysis identifies galectin-1 as a novel regulatory component of the cytotoxic granule machinery

Conversion of CD95 (Fas) Type II into Type I signaling by sub-lethal doses of cycloheximide

Contact Info

Product

Resources

About

Comparison of the anti‐apoptotic effects of Bcr‐Abl, Bcl‐2 and Bcl‐x_L following diverse apoptogenic stimuli