Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Query: EC:3.1.30.2 (
endonuclease
)
18,621
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
We have partially characterized the granules of the human NK cell line, YT-INDY, and assessed granule-mediated lysis and DNA fragmentation of assorted targets. Biochemical studies demonstrated significant quantities of granzyme B (asp-ase) and a heretofore undescribed chymase but no tryptase (i.e.,
granzyme A
or 3) or distinct met-ase. YT-INDY expressed mRNA for granzyme B, perforin and CCPX. The existence of perforin was confirmed by immunoblot. The granules lysed both human and murine NK-sensitive and NK-resistant targets. YT-INDY and NK3.3, two human cytotoxic cells, were also lysed. EGTA reduced lysis by only 50%, suggesting that a perforin-independent lytic pathway is associated with the granules. In addition, 4-(2-aminoethyl) benzenesulfonylfluoride hydrochloride (AEBSF), an inhibitor that selectively blocked the chymase and 3,4-dichloroisocoumarin (DCI), an inhibitor that inactivated both chymase and asp-ase activities, marginally affected lysis. By gel electrophoresis and 125I-labeled deoxyuridine release assay, only murine cells (SP2/0 and YAC-1) underwent DNA fragmentation, and cleavage was completely inhibited by DCI, whereas EGTA, AEBSF and aurintricarboxylic acid (ATA) had no effect. The results, therefore, underscore the central role of granzyme B in granule-mediated DNA fragmentation, emphasize that the protease acts via an ATA-resistant
endonuclease
pathway and stress that nucleolysis does not invariably accompany granule-mediated cytolysis. Finally, ATA inhibited the asp-ase activity of isolated but not granule-associated granzyme B. ATA, therefore, is not a specific
endonuclease
inhibitor and results obtained with ATA should be viewed cautiously.
...
PMID:Human granzyme B is essential for DNA fragmentation of susceptible target cells. 808 28
Granzyme A
, a serine protease in the cytotoxic granules of natural killer cells and cytotoxic T lymphocytes, induces caspase-independent cell death when introduced into target cells by perforin.
Granzyme A
induces single-stranded DNA damage as well as rapid loss of cell membrane integrity and mitochondrial transmembrane potential through unknown mechanisms.
Granzyme A
destroys the nuclear envelope by targeting lamins and opens up DNA for degradation by targeting histones. A special target of the
granzyme A
cell death pathway is an endoplasmic reticulum-associated complex, called the SET complex, which contains three
granzyme A
substrates, the nucleosome assembly protein SET, the DNA bending protein HMG-2, and the base excision repair
endonuclease
Ape1. The SET complex also contains the tumor suppressor protein pp32 and the granzyme A-activated DNase NM23-H1, which is inhibited by SET.
Granzyme A
cleavage of SET releases the inhibition and unleashes NM23-H1. Cleavage of Ape1 by
granzyme A
interferes with the ability of the target cell to repair itself. The novel cell death pathway initiated by
granzyme A
provides a parallel pathway for apoptosis, important in destroying targets that overexpress bcl-2 or are otherwise invulnerable to the caspases.
...
PMID:Nuclear war: the granzyme A-bomb. 1449 64
Granzyme A
(GzmA) activates a caspase-independent cell death pathway with morphological features of apoptosis. Single-stranded DNA damage is initiated when the
endonuclease
NM23-H1 becomes activated to nick DNA after
granzyme A
cleaves its inhibitor, SET. SET and NM23-H1 reside in an endoplasmic reticulum-associated complex (the SET complex) that translocates to the nucleus in response to superoxide generation by
granzyme A
. We now find the 3'-to-5' exonuclease TREX1, but not its close homolog TREX2, in the SET complex. TREX1 binds to SET and colocalizes and translocates with the SET complex. NM23-H1 and TREX1 work in concert to degrade DNA. Silencing NM23-H1 or TREX1 inhibits DNA damage and death of cells treated with perforin (PFN) and
granzyme A
, but not of cells treated with perforin and granzyme B (GzmB). After
granzyme A
activates NM23-H1 to make single-stranded nicks, TREX1 removes nucleotides from the nicked 3' end to reduce the possibility of repair by rejoining the nicked ends.
...
PMID:The exonuclease TREX1 is in the SET complex and acts in concert with NM23-H1 to degrade DNA during granzyme A-mediated cell death. 1681 37
Granzyme K (Gzm K) and
granzyme A
(GzmA) are the only two tryptases among all the granzymes. Tryptase activity is necessary for cytotoxic T lymphocyte (CTL)/nature killer (NK) cells-mediated cytolysis. Granzyme K might be a potent granzyme to rescue the activity of
granzyme A
. Granzyme K expresses at high levels in CD56(high) NK cells, memory CD8+ T cells and CD56+ T cells. We recently demonstrated human granzyme K induces rapid cell death with rapid externalization of phosphatidylserine, nuclear morphological changes and single-stranded DNA nicks. Moreover, Granzyme K can induce rapid reactive oxygen species (ROS) generation and collapse of mitochondrial inner membrane potential. Blockade of reactive oxygen species accumulation suppresses granzyme K-induced cell death. However, it is unknown about how reactive oxygen species generate in Granzyme K-mediated apoptosis. Here we found the redox factor-1/apurinic apyrimidinic
endonuclease
Ape1 can antagonize reactive oxygen species generation. Overexpression of Ape1 inhibits, whereas silencing Ape1 expression potentiates reactive oxygen species accumulation under treatment with oxidative reagents or loading with granzyme K. Ape1 is a physiological substrate of granzyme K. Ape1 cleavage by granzyme K facilitates intracellular reactive oxygen species accumulation and enhances granzyme K-induced cell death.
...
PMID:Granzyme K degrades the redox/DNA repair enzyme Ape1 to trigger oxidative stress of target cells leading to cytotoxicity. 1817 23
The exact biological function of
granzyme A
, a granule-associated serine protease belonging to the tryptase family of proteases, is still a matter of debate because conflicting roles have been suggested, such as initiation of caspase-independent apoptosis-like cell death and endogenous modulation of inflammatory processes. In contrast to its well-studied family member, granzyme B, far less is known about the physiological targets of
granzyme A
. Using an N-terminal peptide-centric proteomics technology, the substrate specificity of human
granzyme A
was extensively characterized at the level of macromolecular protein substrates. Overall, more than 260 cleavage sites, almost exclusively favoring basic residues at the P1 position, in approximately 200 unique protein substrates, including the well-known in vitro substrates APEX-
endonuclease
1 and different histones, were identified. Further substrate characterization was used to delineate physical properties in the substrate specificity profiles, which further highlights important aspects in protease/substrate biology.
...
PMID:The substrate specificity profile of human granzyme A. 2053 82
Apurinic/apyrimidinic
endonuclease
1 (APE1), the main mammalian AP-
endonuclease
for the resolution of DNA damages through the base excision repair (BER) pathway, acts as a multifunctional protein in different key cellular processes. The signals to ensure temporo-spatial regulation of APE1 towards a specific function are still a matter of debate. Several studies have suggested that post-translational modifications (PTMs) act as dynamic molecular mechanisms for controlling APE1 functionality. Interestingly, the N-terminal region of APE1 is a disordered portion functioning as an interface for protein binding, as an acceptor site for PTMs and as a target of proteolytic cleavage. We previously demonstrated a cytoplasmic accumulation of truncated APE1 in acute myeloid leukemia (AML) cells in association with a mutated form of nucleophosmin having aberrant cytoplasmic localization (NPM1c+). Here, we mapped the proteolytic sites of APE1 in AML cells at Lys31 and Lys32 and showed that substitution of Lys27, 31, 32 and 35 with alanine impairs proteolysis. We found that the loss of the APE1 N-terminal domain in AML cells is dependent on the proteasome, but not on
granzyme A
/K as described previously. The present work identified the proteasome as a contributing machinery involved in APE1 cleavage in AML cells, suggesting that acetylation can modulate this process.
...
PMID:Cleavage of the APE1 N-Terminal Domain in Acute Myeloid Leukemia Cells Is Associated with Proteasomal Activity. 3224 30
