Hypertrophy of nigral neurons in Torsin1A deletion (DYT1) carriers manifesting dystonia

Unbiased stereology-based measurements of nigral neurons enlargement in manif-DYT1 in the absence of intraneuronal inclusions or neurodegenerative processes, is novel. These findings suggest distinct pathogenetic mechanisms between manif-DYT1 vs. non-manif-DYT1 and manif-non-DYT1 dystonia, especially in terms of possible nigral dopaminergic abnormalities. These data could open new pathophysiologic views on specific dopamino-associated pathomechanisms related to the clinical manifestation of generalized dystonia.

Using precise methods of quantification, such as unbiased stereology, we measured cellular and subcellular volumes of neuromelanin-containing (pigmented) neurons in the substantia nigra (SN) of DYT1 carriers with and without manifestation of generalized dystonia (manif-DYT1 and non-manif-DYT1, respectively), non-DYT1 carriers manifesting generalized dystonia (manif-non-DYT1) patients, and age-matched control subjects (controls). A total of four DYT1 carriers (two manif-DYT1 and two non-manif-DYT1), six manif-non-DYT1 carriers, and six controls autopsy-brains were available for these neuropathological-morphometric analyses. The search of brain lesions was performed for: tau neurofibrillary tangles and neurites, extracellular β-amyloid deposits, Lewy bodies and neurites, TorsinA, Laminin A + C, Ubiquitin, p62, pTDP43 intraneuronal inclusions; and Negri, Bunina, Hirano, Marinesco, Nissl, and Buscaino bodies.

To individuate morphometric changes and prevalent types of intraneuronal inclusions in nigral neurons of DYT1 dystonia autopsy-brains.

An increased mean cell body, nuclear, and nucleolar volume of nigral neurons in manif-DYT1 vs. non-manif-DYT1 (p < 0.0001), manif-non-DYT1 (p < 0.0001), and controls (p < 0.00001) was found. Increased nuclear and nucleolar volumes in manif-non-DYT1 vs. controls were also found. None of the considered possible intraneuronal lesions were more frequent or prevalent in nigral neurons of manif-DYT1 vs. all the other groups. Conclusions: Unbiased stereology-based measurements of nigral neurons enlargement in manif-DYT1 in the absence of intraneuronal inclusions or neurodegenerative processes, is novel. These findings suggest distinct pathogenetic mechanisms between manif-DYT1 vs. non-manif-DYT1 and manif-non-DYT1 dystonia, especially in terms of possible nigral dopaminergic abnormalities. These data could open new pathophysiologic views on specific dopamino-associated pathomechanisms related to the clinical manifestation of generalized dystonia.