👤 T Langmann

Mattapallil et al. described that vendor lines for C57BL/6 N mice may carry the rd8 mutation that leads to an ocular phenotype, which could be mistaken for an induced retinal degeneration. This mouse strain is widely used in ophthalmic research as a background for modeling retinal degeneration. In the process of studying Cln3 Show less

Neuronal ceroid lipofuscinosis (NCL) is the most common group of neurogenetic storage diseases typically beginning in childhood. The juvenile form (JNCL), also known as Batten disease, is the most common form. Vision-related problems are often an early sign, appearing prior to motor and mental deficits. We have previously investigated disease progression with age in the Cln3 Show less

Neuronal ceroid lipofuscinoses (NCL) are characterized by lysosomal accumulation of autofluorescent material and lead to degeneration of the central nervous system. Patients affected by the juvenile form of NCL (JNCL), the most common form of the disease, develop visual failure prior to mental and motor deficits. It is currently unclear if the corresponding mouse model, Cln3 (Δex7/8) knock-in, develops the same retinal phenotype and electroretinogram (ERG) measurements as affected patients. The aim of our study was to investigate the visual disease progression in the Cln3 (Δex7/8) mice using scotopic and photopic ERGs as well as optokinetic tracking (OKT) at different ages. The results were then compared with age-matched controls.The amplitudes of the a-wave and b-wave (scotopic ERG) decrease significantly in Cln3 (Δex7/8) mice starting at the age of 12 months. A reduction in the b/a-amplitude ratio indicates a degeneration preferentially of the inner retina. An amplitude reduction observed in the Cln3 (+/+) control mice may be attributed to an additional Crb1 (rd8) mutation. Using optokinetic tracking (OKT) the Cln3 (Δex7/8) mice show a progressive decline in visual acuity after 12 months of age. Show less

Apolipoprotein A-IV (apoA-IV), an intestinally and cerebrally synthesized satiety factor and anti-atherogenic plasma apolipoprotein, was recently identified as an anti-inflammatory protein. In order to elucidate whether intestinal apoA-IV exerts similar repair function as its hepatic homologue apolipoprotein A-V (apoA-V), apoA-IV-interactive proteins were searched and in vitro functional studies were performed with apoA-IV overexpressing cells. ApoA-IV was also analyzed in the intestinal mucosa of patients with inflammatory bowel diseases (IBD), together with other genes involved in epithelial junctional integrity. A yeast-two-hybrid screening was used to identify apoA-IV-interactors. ApoA-IV was overexpressed in Caco-2 and HT-29 mucosal cells for colocalization and in vitro epithelial permeability studies. Mucosal biopsies from quiescent regions of colon transversum and terminal ileum were subjected to DNA-microarray analysis and pathway-related data mining. Four proteins interacting with apoA-IV were identified, including apolipoprotein B-100, alpha1-antichymotrypsin, cyclin C, and the cytosolic adaptor alpha-catenin, thus linking apoA-IV to adherens junctions. Overexpression of apoA-IV was paralleled with a differentiated phenotype of intestinal epithelial cells, upregulation of junctional proteins, and decreased paracellular permeability. Colocalization between alpha-catenin and apoA-IV occurred exclusively in junctional complexes. ApoA-IV was downregulated in quiescent mucosal tissues from patients suffering from IBD. In parallel, only a distinct set of junctional genes was dysregulated in non-inflamed regions of IBD gut. ApoA-IV may act as a stabilizer of adherens junctions interacting with alpha-catenin, and is likely involved in the maintenance of junctional integrity. ApoA-IV expression is significantly impaired in IBD mucosa, even in non-inflamed regions. Show less