TorsinA in PC12 cells: localization in the endoplasmic reticulum and response to stress.

Most cases of early-onset torsion dystonia are caused by deletion of GAG in the coding region of the DYT1 gene encoding torsinA. This autosomal dominant neurologic disorder is characterized by abnormal movements, believed to originate from neuronal dysfunction in the basal ganglia of the human brain. The torsins (torsinA and torsinB) are members of the "ATPases associated with a variety of cellular activities" (AAA(+)) superfamily of proteins that mediate chaperone and other functions involved in conformational modeling of proteins, protection from stress, and targeting of proteins to cellular organelles.

Molecular cloning and expression of rat torsinA in the normal and genetically dystonic (dt) rat.

Deletions within the TOR1A gene cause early-onset (DYT1) torsion dystonia. We have cloned and sequenced the rat cDNA homologue of TOR1A and found a 91% identity with the human sequence. Northern blot analysis detects a single transcript of approximately 1.

Mutant torsinA, responsible for early-onset torsion dystonia, forms membrane inclusions in cultured neural cells.

Early-onset torsion dystonia is a hereditary movement disorder thought to be caused by decreased release of dopamine into the basal ganglia, without apparent neuronal degeneration. Recent cloning of the gene responsible for this disease, TOR1A (DYT1), identified the encoded protein, torsinA, as a member of the AAA+ superfamily of chaperone proteins and revealed highest levels of expression in dopaminergic neurons in human brain. Most cases of this disease are caused by a deletion of one glutamic acid residue in the C-terminal region of the protein.

Interaction of protein kinases A and C in their effects on the proenkephalin gene in astroglial cells.

In several cell types, the expression of the proenkephalin (PEnk) gene is enhanced after activation of protein kinase A. In the present study, astroglial cells cultured from rat cortex were used to investigate whether protein kinases A and C can act in a synergistic manner on the endogenous proenkephalin gene. The activator of protein kinase C tetradecanoylphorbolacetate (0.