GADD45G

Growth arrest and DNA-damage-inducible protein GADD45 gamma is a is_associated_with::protein that in humans is encoded by the GADD45G is_associated_with::gene on is_associated_with::chromosome 9. GADD45G is also known as CR6, DDIT2, GRP17, OIG37, and GADD45gamma. GADD45G is involved in several different processes, including sexual development, human-specific brain development, tumor suppression, and the is_associated_with::cellular stress response. GADD45G interacts with several other proteins that are involved in DNA repair, is_associated_with::cell cycle control, is_associated_with::apoptosis, and is_associated_with::senescence. Low expression of GADD45G has been associated with many types of is_associated_with::cancer.

History
GADD45G was originally cloned by Beadling under the name CR6 in 1993. In this experiment, several genes including GADD45G were noted for being induced by IL-2, and they were identified as immediate early response genes in is_associated_with::T lymphocytes. Its role as a is_associated_with::tumor suppressor was discovered in 1999 by Zhang. It received the name OIG37 from Nakayama due to its regulation by is_associated_with::Oncostatin M, which was found to be able to inhibit growth. Finally, it also became known as Gadd-related protein 17 during its isolation from a is_associated_with::cDNA library by Suzuki due to its homology with Gadd45.

Structure and function
GADD45G is a member of a group of genes whose transcript levels are increased following stressful growth arrest conditions and treatment with DNA-damaging agents. The protein encoded by this gene responds to environmental stresses by mediating activation of the p38/is_associated_with::JNK pathway via MTK1/is_associated_with::MEKK4 is_associated_with::kinase. GADD45G is in turn regulated upstream by is_associated_with::NF-κB.

The crystal structure of GADD45G reveals a dimer made of four parallel helices. The central region contains a highly acidic patch where it allows for interaction with is_associated_with::cdc2, is_associated_with::PCNA, and is_associated_with::p21. The parallel is_associated_with::isoform of GADD45G is the active form.

This gene plays a role in cell cycle regulation. GADD45G prevents the kinase ability of the cyclin b1/is_associated_with::Cdk1 complex in a fashion that does not break apart the complex. It plays a role in the activation of the S and G2/M checkpoints.

In the male sexual development pathway, GADD45G is essential for activating SRY, leading to proper formation of the is_associated_with::gonads and sex-determination. This could occur through GADD45G interaction with the p38 is_associated_with::MAPK signaling pathway.

Deletion of an enhancer close to the GADD45G gene is correlated to increased proliferation of is_associated_with::neuronal cells, which could account for part of the difference in neural development between humans and other species. The deletion of the enhancer reduces the expression of the gene in the is_associated_with::forebrain allowing for more brain growth in humans.

GADD45G is involved with dental is_associated_with::epithelial cell proliferation. GADD45G is expressed in enamel knots, where it regulates gene expression and cell growth. The gene modulates p21-mediated epithelial cell proliferation by activating the p38 MAPK pathway during the development of teeth.

There is differential expression of the is_associated_with::Xenopus homolog of GADD45G in embryonic development. It plays a large role in neural and brain development with is_associated_with::GADD45A. GADD45G and GADD45A knockdowns are related to improper is_associated_with::gastrulation, defective head growth, and shorter axes. GADD45G and GADD45A act redundantly to control cell growth, allow the cells to move from pluripotentcy helping cells differentiate.

Interactions
GADD45G carries out its many previously stated functions with many different interactions. GADD45G was found to inhibit Cdk1 kinase activity, which would cause disruption of cell growth. It also interacts with CRIF, which causes the inhibition of Cdc2-cyclin B1 and Cdk-cyclin E. GADD45 also works with the cyclin-dependent kinase inhibitor is_associated_with::p21, which can cause growth arrest as well. GADD45G is found to be involved with the p38 MAPK pathway through interactions with is_associated_with::MAP3K4, which can be important in sex-determination. Additionally, GADD45G regulates DNA replication and repair through its interactions with is_associated_with::PCNA.

Tissue distribution
In humans, GADD45G is expressed most in the is_associated_with::skeletal muscle, is_associated_with::kidney and is_associated_with::liver. This gene has a low expression in the is_associated_with::heart, is_associated_with::brain, is_associated_with::spleen, is_associated_with::lung and testis. GADD45G is highly expressed in the placenta.

In the embryonic mouse, Gadd45g is expressed in the is_associated_with::neural tube, is_associated_with::cranial and dorsal root ganglia and the dorsal is_associated_with::midbrain.

Clinical significance
In numerous kinds of cancerous cells, GADD45G is down regulated. There is a low expression due to is_associated_with::methylation of the GADD45G promotor. This low expression can also be explained by increased NF-κB activation.

GADD45G methylation is seen in many cancers. In is_associated_with::esophageal cancer the expression level and methylation status of the gene are involved in the prognosis of esophageal is_associated_with::squamous cell carcinoma. Demethylation of the gene can have some beneficial effects. Similar circumstances are seen in gastric cardio adenocarcinomas where GADD45G is silenced. GADD45G methylation levels are also measured in the diagnosis of pancreatic and colorectal cancers.

In the is_associated_with::pituitary gland, GADD45G is a growth suppressor. There is a loss of expression of the gene in many pituitary cancerous masses. The gene plays a role in is_associated_with::prostate cancer as a tumor suppressor as well. In these cancerous cells, is_associated_with::Vitamin D can induce the expression of GADD45G. GADD45G could possibly be a target of therapeutic benefit for prostate cancer.

In cancerous liver cells, GADD45G is down regulated.It participates in negatively regulating the Jak-Stat3 signaling pathway. It acts as a tumor suppressor in HCC cells by promoting cell death or growth arrest. When GADD45G expression is low, liver cells may be able to bypass the growth arrest stage, leading to cancerous cells.

The presence of GADD45G in the is_associated_with::urinary system is also related to is_associated_with::renal disease. The renal cells expressing the gene were damaged.

In human uterine cells GADD45G is upregulated after a dose of Estrogen. The upregulation of Gadd45g due to hormones may account for the changes in the mouse uterus.