Deterioration of visual quality and acuity as the first sign of ceroid lipofuscinosis type 3 (CLN3), a rare neurometabolic disease.

Ceroid lipofuscinosis type 3 (CLN3) is an autosomal recessive, neurodegenerative metabolic disease. Typical clinical symptoms include progressive visual loss, epilepsy of unknown etiology and dementia. Presence of lipofuscin deposits with typical pattern of 'fingerprints' and vacuolized lymphocytes suggest the diagnosis of CLN3. Cause of CLN3 are mutations in the CLN3 gene, among which the most frequently found is the large deletion 1.02 kb spreading on exons 7 and 8. We present 4 patients from 2 families, in whom the deterioration of visual quality and acuity was observed as first clinical sign, when they were a few years old and it was successively accompanied by symptoms of neurologic deterioration (like generalized convulsions with consciousness impairment). In all patients the 1.02 kb deletion in the CLN3 gene was detected in homo- or heterozygosity with other CLN3 pathogenic variant. Ultrastructural studies revealed abnormal structures corresponding to 'fingerprint' profiles (FPPs) in conjunctival endothelial cells. It should be emphasized that in patients with blindness of unknown cause the diagnosis of ceroid lipofuscinosis should be considered and in older children-especially CLN3. The facility of the analysis for the presence of 1.02 kb deletion and economic costs are a solid argument for intensive use of this test in the diagnostic procedure of CLN3.

Changes in global gene expression indicate disordered autophagy, apoptosis and inflammatory processes and downregulation of cytoskeletal signalling and neuronal development in patients with Niemann-Pick C disease.

Changes in gene expression profiles were investigated in 23 patients with Niemann-Pick C1 disease (NPC). cDNA expression microarrays with subsequent validation by qRT-PCR were used. Comparison of NPC to control samples revealed upregulation of genes involved in inflammation (MMP3, THBS4), cytokine signalling (MMP3), extracellular matrix degradation (MMP3, CTSK), autophagy and apoptosis (CTSK, GPNMB, PTGIS), immune response (AKR1C3, RCAN2, PTGIS) and processes of neuronal development (RCAN2). Downregulated genes were associated with cytoskeletal signalling (ACTG2, CNN1); inflammation and oxidative stress (CNN1); inhibition of cell proliferation, migration and differentiation; ERK-MAPK pathway (COL4A1, COL4A2, CPA4); cell adhesion (IGFBP7); autophagy and apoptosis (CDH2, IGFBP7, COL4A2); neuronal function and development (CSRP1); and extracellular matrix stability (PLOD2). When comparing NPC and Gaucher patients together versus controls, upregulation of SERPINB2 and IL13RA2 and downregulation of CSRP1 and CNN1 were characteristic. Notably, in NPC patients, the expression of PTGIS is upregulated while the expression of PLOD2 is downregulated when compared to Gaucher patients or controls and potentially could serve to differentiate these patients. Interestingly, in NPC patients with (i) jaundice, splenomegaly and cognitive impairment/psychomotor delay-the expression of ACTG2 was especially downregulated; (ii) ataxia-the expression of ACTG2 and IGFBP5 was especially downregulated; and (iii) VSGP, dysarthria, dysphagia and epilepsy-the expression of AKR1C3 was especially upregulated while the expression of ACTG2 was downregulated. These results indicate disordered apoptosis, autophagy and cytoskeleton remodelling as well as upregulation of immune response and inflammation to play an important role in the pathogenesis of NPC in humans.

Gene expression profile in patients with Gaucher disease indicates activation of inflammatory processes.

Gaucher disease (GD) is a rare inherited metabolic disease caused by pathogenic variants in the GBA1 gene. So far, the pathomechanism of GD was investigated mainly in animal models. In order to delineate the molecular changes in GD cells we analysed gene expression profile in cultured skin fibroblasts from GD patients, control individuals and, additionally, patients with Niemann-Pick type C disease (NPC). We used expression microarrays with subsequent validation by qRT-PCR method. In the comparison GD patients vs. controls, the most pronounced relative fold change (rFC) in expression was observed for genes IL13RA2 and IFI6 (up-regulated) and ATOH8 and CRISPLD2 (down-regulated). Products of up-regulated and down-regulated genes were both enriched in genes associated with immune response. In addition, products of down-regulated genes were associated with cell-to-cell and cell-to-matrix interactions, matrix remodelling, PI3K-Akt signalling pathway and a neuronal survival pathway. Up-regulation of PLAU, IFIT1, TMEM158 and down-regulation of ATOH8 and ISLR distinguished GD patients from both NPC patients and healthy controls. Our results emphasize the inflammatory character of changes occurring in human GD cells indicating that further studies on novel therapeutics for GD should consider anti-inflammatory agents.