Intracellular cathepsin C levels determine sensitivity of cells to leucyl‐leucine methyl ester‐triggered apoptosis

Kavčič, Nežka; Butinar, Miha; Sobotič, Barbara; Česen, Maruša Hafner; Petelin, Ana; Bojić, Lea; Bergant, Tina; Bratovš, Andreja; Reinheckel, Thomas; Turk, Boris

doi:10.1111/febs.15326

Cited by 20 publications

(10 citation statements)

References 63 publications

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“…Inhibition of caspases largely rescued LLOMe-induced cell death, confirming an important role of caspase-dependent apoptosis upon LMP induction, which is in line with reported findings that identify the induction of apoptosis upon lysosomal damage [50,71]. In many cases, LMP-induced cell death is regulated by the release of cathepsins in the cytosol [50]. In addition, cathepsins regulate apoptosis via cleavage of the pro-apoptotic protein Bid [72], the degradation of anti-apoptotic B-cell lymphoma 2 (Bcl-2) family members, like Bcl-2, Bcl-xL and Mcl-1 [73] and the release of cytochrome c and caspase activation [74].…”

Section: Otulin-mediated M1 Poly-ub Modification Of Damaged Lysosomes...supporting

confidence: 90%

Section: Otulin-mediated M1 Poly-ub Modification Of Damaged Lysosomes...supporting

confidence: 88%

“…Since severe LMP might eventually activate cell death pathways, like apoptosis [49], we next sought to investigate LMP-induced cell death pathways. LLOMe treatment triggered cell death which could be blocked by caspase inhibition with zVAD.fmk in both control and OTULIN KO cells (Figure 5A) , confirming that LLOMe induces caspase-dependent apoptosis [50]. Since damaged lysosomes can either be repaired or degraded via lysophagy in a highly dynamic fashion to control the balance between cell survival and lysosome-dependent apoptotic cell death [9,51], increased M1 poly-Ub-mediated NF-kB activation at damaged lysosomes might fulfill cell death-regulating functions.…”

Section: Resultsmentioning

confidence: 73%

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Linear ubiquitination at damaged lysosomes induces local NF-κB activation and controls cell survival

Zein,

Dietrich,

Balta

et al. 2023

Preprint

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Lysosomes are the major cellular organelles responsible for nutrient recycling and degradation of cellular material. Maintenance of lysosomal integrity is essential for cellular homeostasis and lysosomal membrane permeabilization (LMP), induced by lysosomotrophic agents, sensitizes towards cell death. Damaged lysosomes are repaired or degraded via lysophagy, during which glycans, exposed on ruptured lysosomal membranes, are recognized by galectins leading to K48- and K63-linked poly-ubiquitination (poly-Ub) of lysosomal proteins followed by recruitment of the autophagic machinery and degradation. Linear (M1) poly-Ub, catalyzed by the E3 ligase linear ubiquitin chain assembly complex (LUBAC) and removed by the OTU domain-containing deubiquitinase with linear linkage specificity (OTULIN) exerts important functions in immune signaling and cell survival, but the role of M1 poly-Ub in lysosomal homeostasis remains largely unexplored. Here, we demonstrate that damaged lysosomes are decorated with M1 poly-Ub in a LUBAC-, OTULIN- and K63-dependent manner. LMP-induced M1 poly-Ub at damaged lysosomes contributes to lysosome degradation, recruits nuclear factor κ-B (NF-κB) essential modulator (NEMO) and locally activates inhibitor of NF-ĸB kinase (IKK) to trigger NF-κB activation in a K63 poly-Ub-dependent manner. Inhibition of lysosomal degradation enhances LMP- and OTULIN-dependent cell death, indicating pro-survival functions of LMP and potentially lysophagy. Finally, we demonstrate that M1 poly-Ub occurs at L-leucyl-leucine methyl ester (LLOMe)-damaged lysosomes in primary mouse neurons and induced pluripotent stem cell (iPSC)-derived primary human dopaminergic neurons. Together, our results reveal novel functions of M1 poly-Ub during lysosomal homeostasis, LMP and degradation of damaged lysosomes, with important implications for NF-κB signaling, inflammation and cell death.

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Section: Otulin-mediated M1 Poly-ub Modification Of Damaged Lysosomes...supporting

confidence: 90%

Section: Otulin-mediated M1 Poly-ub Modification Of Damaged Lysosomes...supporting

confidence: 88%

Section: Resultsmentioning

confidence: 73%

See 1 more Smart Citation

Linear ubiquitination at damaged lysosomes induces local NF-κB activation and controls cell survival

Zein,

Dietrich,

Balta

et al. 2023

Preprint

View full text Add to dashboard Cite

show abstract

“…These mechanisms, which include abnormalities in their biosynthetic machinery, generating cathepsins lacking the signal peptide or truncated cathepsins with modified signal sequences, may direct cathepsin variants to the cytosol as well as to the mitochondria or nucleus. In the cytosol, cathepsins regulate apoptosis by both activating apoptotic proteases and degrading antiapoptotic proteins [ 2 , 8 , 46 , 47 ], and mediate inflammatory responses by activating inflammasome [ 32 , 33 , 34 , 35 ]. Loss of function or inactivation of cathepsins in the cytosol have been associated with pathological conditions such as neurodegenerative diseases, atherosclerosis [ 48 , 49 ], type 2 diabetes [ 50 , 51 ] kidney diseases [ 52 , 53 ], and ischemia [ 54 , 55 , 56 ].…”

Section: Classification Synthesis Cellular Localization and Physiopat...mentioning

confidence: 99%

The Key Role of Lysosomal Protease Cathepsins in Viral Infections

Scarcella

d’Angelo

Ciampa

et al. 2022

IJMS

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Cathepsins encompass a family of lysosomal proteases that mediate protein degradation and turnover. Although mainly localized in the endolysosomal compartment, cathepsins are also found in the cytoplasm, nucleus, and extracellular space, where they are involved in cell signaling, extracellular matrix assembly/disassembly, and protein processing and trafficking through the plasma and nuclear membrane and between intracellular organelles. Ubiquitously expressed in the body, cathepsins play regulatory roles in a wide range of physiological processes including coagulation, hormone secretion, immune responses, and others. A dysregulation of cathepsin expression and/or activity has been associated with many human diseases, including cancer, diabetes, obesity, cardiovascular and inflammatory diseases, kidney dysfunctions, and neurodegenerative disorders, as well as infectious diseases. In viral infections, cathepsins may promote (1) activation of the viral attachment glycoproteins and entry of the virus into target cells; (2) antigen processing and presentation, enabling the virus to replicate in infected cells; (3) up-regulation and processing of heparanase that facilitates the release of viral progeny and the spread of infection; and (4) activation of cell death that may either favor viral clearance or assist viral propagation. In this review, we report the most relevant findings on the molecular mechanisms underlying cathepsin involvement in viral infection physiopathology, and we discuss the potential of cathepsin inhibitors for therapeutical applications in viral infectious diseases.

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“…It is evident that substances damaging the lysosomal membrane cause this phenomenon. Experimentally, so called lysosomotropic agents such as L‐leucyl‐L‐leucine methyl ester, which needs to be activated by cathepsin C, are widely used to initiate LMP [ 96 , 97 ]. In various pathological context ‘crystals’ that cannot be digested by the lysosome also induce LMP, cathepsin release, inflammation, and eventually immune cell death [ 45 , 46 , 98 ].…”

Section: A Brief Account Of Cytosolic Cathepsins In Dying Cellsmentioning

confidence: 99%

Low‐level lysosomal membrane permeabilization for limited release and sublethal functions of cathepsin proteases in the cytosol and nucleus

Reinheckel

Tholen

2022

FEBS Open Bio

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For a long time, lysosomes were purely seen as organelles in charge of garbage disposal within the cell. They destroy any cargo delivered into their lumen with a plethora of highly potent hydrolytic enzymes, including various proteases. In case of damage to their limiting membranes, the lysosomes release their soluble content with detrimental outcomes for the cell. In recent years, however, this view of the lysosome changed towards acknowledging it as a platform for integration of manifold intracellular and extracellular signals. Even impaired lysosomal membrane integrity is no longer considered to be a one‐way street to cell death. Increasing evidence suggests that lysosomal enzymes, mainly cathepsin proteases, can be released in a spatially and temporarily restricted manner that is compatible with cellular survival. This way, cathepsins can act in the cytosol and the nucleus, where they affect important cellular processes such as cell division. Here, we review this evidence and discuss the routes and molecular mechanisms by which the cathepsins may reach their unusual destination.

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Intracellular cathepsin C levels determine sensitivity of cells to leucyl‐leucine methyl ester‐triggered apoptosis

Cited by 20 publications

References 63 publications

Linear ubiquitination at damaged lysosomes induces local NF-κB activation and controls cell survival

Linear ubiquitination at damaged lysosomes induces local NF-κB activation and controls cell survival

The Key Role of Lysosomal Protease Cathepsins in Viral Infections

Low‐level lysosomal membrane permeabilization for limited release and sublethal functions of cathepsin proteases in the cytosol and nucleus

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