The neuronal ceroid lipofuscinoses (NCL) are genetic degenerative disorders of brain and retina. NCL with juvenile onset (JNCL) is genetically heterogeneous but most frequently caused by mutations of Show more
The neuronal ceroid lipofuscinoses (NCL) are genetic degenerative disorders of brain and retina. NCL with juvenile onset (JNCL) is genetically heterogeneous but most frequently caused by mutations of CLN3. Classical juvenile CLN3 includes a rare protracted form, which has previously been linked to autophagic vacuolar myopathy (AVM). Our study investigates the association of AVM with classic, non-protracted CLN3. Evaluation of skeletal muscle biopsies from three, non-related patients with classic, non-protracted and one patient with protracted CLN3 disease by histology, immunohistochemistry, electron microscopy, and Sanger sequencing of the coding region of the CLN3 gene. We identified a novel heterozygous CLN3 mutation (c.1056+34C>A) in one of our patients with classic, non-protracted CLN3 disease. The skeletal muscle of all CLN3 patients was homogeneously affected by an AVM characterized by autophagic vacuoles with sarcolemmal features and characteristic lysosomal pathology. Our observations show that AVM is not an exceptional phenomenon restricted to protracted CLN3 but rather a common feature in CLN3 myopathology. Therefore, CLN3 myopathology should be included in the diagnostic spectrum of autophagic vacuolar myopathies. Show less
Thyroid-associated ophthalmopathy (TAO) is a potentially severe autoimmune disease, in and around the orbit, usually accompanied by Graves' disease. It was the goal of this study to develop a serologi Show more
Thyroid-associated ophthalmopathy (TAO) is a potentially severe autoimmune disease, in and around the orbit, usually accompanied by Graves' disease. It was the goal of this study to develop a serological indicator for TAO and to characterize its expression in human thyroid and eye muscle tissue. Thus, we have recloned the full-length 1D-complementary DNA and assessed its expression levels in 90 healthy and diseased human thyroids. Only Graves' patients suffering from TAO (n = 29) displayed a significant, 2.1-fold increase of 1D expression levels (P = 0.029), compared with normal controls (n = 9), as assessed using the Mann-Whitney U-test for paired, nonnormally distributed samples. In contrast, a decrease of 1D expression (to 40% of control normal values) was confined to thyroid autonomy (n = 19, P = 0.032). In all other diseased human thyroids, including Graves' thyroids from patients not suffering from clinically overt TAO (n = 9), 1D expression levels were not different from the healthy controls. 1D gene expression was demonstrated in both healthy (n = 10) and diseased (n = 10) eye muscle tissues. Furthermore, a recombinant protein derived from baculovirus-infected Sf9 insect cells was purified under both nondenaturing and denaturing conditions. While under nondenaturing conditions, the molecular mass of recombinant 1D was determined to be 85 kDa; denaturing isolation yielded the expected 64-kDa protein. Autoantibodies against denatured 1D protein were not detectable in sera of diseased or healthy subjects. Immunoreactivity against the 85-kDa, nondenatured protein, evaluated in a panel of 222 different human sera, showed that 82% of Graves' patients suffering from TAO had autoantibodies against recombinant 1D, whereas only 5% of the healthy controls were positive for antibodies against 1D. Taken together, our results demonstrate a high disease sensitivity and specificity of recombinant, nondenatured 1D, to distinguish Graves' disease with or without TAO from other forms of thyroid and/or eye disease. Prospective studies will have to show whether autoantibodies against 1D can also be used as a prognosticator of TAO. Show less