Human Gene Set: BIOCARTA_SET_PATHWAY

For the Mouse gene set with the same name, see BIOCARTA_SET_PATHWAY

Standard name BIOCARTA_SET_PATHWAY
Systematic name M3075
Brief description Granzyme A mediated Apoptosis Pathway
Full description or abstract One mechanism used by cytotoxic T cells to kill tumor cells and virus-infected cells is the release of perforin and granzyme proteins. Perforin proteins form pores in the membranes of the attacked cell, allowing the entry of Granzyme A and Granzyme B. Granzyme B induces caspase activation and cleavage of factors like ICAD, releasing DFF40 to fragment DNA, one of the hallmarks of apoptotic cell death. Granzyme A is also an abundant granzyme released by cytotoxic T cells and is important in cytotoxic T cell induced apoptosis, activating caspase independent pathways. Once in a cell, Granzyme A activates DNA nicking by the recently identified DNAse NM23-H1, a tumor suppressor gene product whose expression is reduced in transformed, metastatic cells. The previous identification of NM23-H1 as a tumor suppressor indicates that its DNAse activity plays an important role in immune surveillance to prevent cancer through the induction of tumor cell apoptosis. The activation of NM23-H1 occurs indirectly, through the cleavage of proteins that inhibit NM23-H1 in the SET complex, which includes SET, Ape1, pp32 and HMG2. SET is a substrate for the Granzyme A protease, and SET cleavage relieves NM23-H1 inhibition to cause apoptotic DNA degradation. In addition to inhibiting NM23-H1, SET has nucleosome assembly activity and also may help the interaction of transcriptional regulation with chromatin structure by interacting with the transcriptional coactivator CBP. The targets of Granzyme A found in the SET complex also have other important functions. Ape1 repairs oxidative DNA damage, reduces transcription factors involved in immediate early responses, and its cleavage by Granzyme A may contribute to DNA degradation and apoptosis. HMG2 is an acidic chromatin-associated protein that bends DNA, alters chromatin structure and alters the accessibility of genes for transcription. In addition to acting as a nucleosome assembly factor and an inhibitor of NM23-H1, SET inhibits DNA and histone methylation by the CBP transcriptional coactivator. The tumor suppressor pp32 is not cleaved by Granzyme A but is part of the SET complex. Other targets of Granzyme A include nuclear lamins responsible for maintaining nuclear structure and histones, the basic building blocks of chromatin structure. The common involvement of the proteins of the SET complex in chromatin structure and DNA repair suggest that they work together to protect chromatin and DNA structure and that inactivation of the complex contributes to apoptosis by blocking the maintenance of DNA and chromatin structural integrity.
Collection C2: Curated
      CP: Canonical Pathways
            CP:BIOCARTA: BioCarta Pathways
Source publication  
Exact source  
Related gene sets  
External links https://data.broadinstitute.org/gsea-msigdb/msigdb/biocarta/human/h_setPathway.gif
Filtered by similarity ?
Source species Homo sapiens
Contributed by BioCarta
Source platform or
identifier namespace
HUMAN_SEQ_ACCESSION
Dataset references  
Download gene set format: grp | gmt | xml | json | TSV metadata
Compute overlaps ? (show collections to investigate for overlap with this gene set)
Compendia expression profiles ? NG-CHM interactive heatmaps
(Please note that clustering takes a few seconds)
GTEx compendium
Human tissue compendium (Novartis)
Global Cancer Map (Broad Institute)
NCI-60 cell lines (National Cancer Institute)

Legacy heatmaps (PNG)
GTEx compendium
Human tissue compendium (Novartis)
Global Cancer Map (Broad Institute)
NCI-60 cell lines (National Cancer Institute)
Advanced query Further investigate these 10 genes
Gene families ? Categorize these 10 genes by gene family
Show members (show 22 source identifiers mapped to 10 genes)
Version history 7.0: Changed members. Upgraded to final version of Biocarta.

See MSigDB license terms here. Please note that certain gene sets have special access terms.