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Rare loss-of-function variants in HECTD2 and AKAP11 confer a risk of bipolar disorder

Significant progress has occurred over the last 15 years through genome-wide association studies leading to the identification of hundreds of biomarkers, i.e. DNA sequence variants, associated with the risk of psychiatric disease, including bipolar disorder.  These biomarkers represent common variations each carrying a small risk, but in confluence, they are beginning to account for a considerable part of the variance in psychiatric traits and disorders. Variants predicted to cause loss of function of genes tend to be rare but hold great promise for informing on the underlying biology.   
REYKJAVIK, Iceland, (informazione.news - comunicati stampa - salute e benessere)

Significant progress has occurred over the last 15 years through genome-wide association studies leading to the identification of hundreds of biomarkers, i.e. DNA sequence variants, associated with the risk of psychiatric disease, including bipolar disorder.  These biomarkers represent common variations each carrying a small risk, but in confluence, they are beginning to account for a considerable part of the variance in psychiatric traits and disorders. Variants predicted to cause loss of function of genes tend to be rare but hold great promise for informing on the underlying biology.   

To harness the information contained in rare loss-of-function (LOF) variants, the scientists performed a variant burden analysis for bipolar disorder using gene-based aggregation of LOF variants in whole genome sequencing data from Iceland and the UK Biobank and using data from the Bipolar Exomes study (BipEx, www.bipex.broadinstitute.org/results) for replication and further meta-analysis efforts. The study revealed the association of LOF variants in two genes (HECTD2 and AKAP11) with bipolar disorder. Both associations with bipolar disorder are novel, but AKAP11 has previously been associated with psychosis and schizophrenia. 

AKAP11 encodes an anchoring protein, that regulatory subunits of protein kinase A (PKA) bind to, leading to confinement of PKA to specific cellular locations. ��HECTD2 encodes an E3 ubiquitin ligase, that adds multiple ubiquitin groups to proteins, thereby labeling them for destruction by the proteasome.    The products of both AKAP11 and HECTD2 interact with GSK3β, a protein inhibited by lithium, the most effective mood stabilizer available to treat bipolar disorder.  These findings point to the dysfunction of specific cellular pathways in bipolar disorder and cast the gene products of AKAP11 and HECTD2 along with GSK3β as promising targets in the search for new treatments for bipolar disorder. 

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View original content:https://www.prnewswire.co.uk/news-releases/rare-loss-of-function-variants-in-hectd2-and-akap11-confer-a-risk-of-bipolar-disorder-302409663.html

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