Endosomal accumulation of APP in wobbler motor neurons reflects impaired vesicle trafficking: Implications for human motor neuron disease

Palmisano R, Golfi P, Heimann P, et al. Endosomal accumulation of APP in wobbler motor neurons reflects impaired vesicle trafficking: Implications for human motor neuron disease. BMC Neuroscience. 2011;12(1): 24.Background: The cause of sporadic amyotrophic lateral sclerosis (ALS) is largely unknown but hypotheses about disease mechanisms include oxidative stress, defective axonal transport, mitochondrial dysfunction and disrupted RNA processing. Whereas familial ALS is well represented by transgenic mutant SOD1 mouse models, the mouse mutant wobbler (WR) develops progressive motor neuron degeneration due to a point mutation in the Vps54 gene, and provides an animal model for sporadic ALS. VPS54 protein as a component of a protein complex is involved in vesicular Golgi trafficking; impaired vesicle trafficking might also be mechanistic in the pathogenesis of human ALS. Results: In motor neurons of homozygous symptomatic WR mice, a massive number of endosomal vesicles significantly enlarged (up to 3 mu m in diameter) were subjected to ultrastructural analysis and immunohistochemistry for the endosome-specific small GTPase protein Rab7 and for amyloid precursor protein (APP). Enlarged vesicles were neither detected in heterozygous WR nor in transgenic SOD1(G93A) mice; in WR motor neurons, numerous APP/Rab7-positive vesicles were observed which were mostly LC3-negative, suggesting they are not autophagosomes. Conclusions: We conclude that endosomal APP/Rab7 staining reflects impaired vesicle trafficking in WR mouse motor neurons. Based on these findings human ALS tissues were analysed for APP in enlarged vesicles and were detected in spinal cord motor neurons in six out of fourteen sporadic ALS cases. These enlarged vesicles were not detected in any of the familial ALS cases. Thus our study provides the first evidence for wobbler-like aetiologies in human ALS and suggests that the genes encoding proteins involved in vesicle trafficking should be screened for pathogenic mutations

ADAM8/MS2/CD156, an Emerging Drug Target in the Treatment of Inflammatory and Invasive Pathologies

While it is highly accepted that ADAM family members with ubiquitous expression patterns, such as ADAM10 and ADAM17 have major roles in homoeostasis and pathology, ADAM8 was initially considered as an immune-specific ADAM with a cell-specific expression pattern. Therefore, ADAM8 had a “sleeping beauty” existence for many years, and has recently come back into focus as it was detected under several pathological conditions. These were found to typically involve inflammation and remodelling of the extracellular matrix, including cancers and serious respiratory diseases such as asthma. In these diseases, induced expression of ADAM8 by different stimuli results in cleavage of various substrates, including cell adhesion molecules, cytokine receptors, and ECM components. Involvement of ADAM8 in individual diseases indicates its usefulness as both a diagnostic and prognostic marker. Even more strikingly, as ADAM8 progressively emerges as a key effector in pathological processes, so does its attractiveness as a therapeutic target rather than being a mere indicator of disease and its progression. This is encouraged by analysis of ADAM8 null mice, identifying no adverse phenotype in the absence of functional ADAM8. Thus, ADAM8 potentially is an attractive drug target in a variety of diseases. In this review, the current knowledge on ADAM8 in diseases and avenues for specific inhibition based on unique biochemical features of ADAM8 will be presented

ADAM8 as a drug target in pancreatic cancer

Schlomann U, Koller G, Conrad C, et al. ADAM8 as a drug target in pancreatic cancer. NATURE COMMUNICATIONS. 2015;6(1): 6175.Pancreatic ductal adenocarcinoma (PDAC) has a grim prognosis with <5% survivors after 5 years. High expression levels of ADAM8, a metalloprotease disintegrin, are correlated with poor clinical outcome. We show that ADAM8 expression is associated with increased migration and invasiveness of PDAC cells caused by activation of ERK1/2 and higher MMP activities. For biological function, ADAM8 requires multimerization and associates with beta 1 integrin on the cell surface. A peptidomimetic ADAM8 inhibitor, BK-1361, designed by structural modelling of the disintegrin domain, prevents ADAM8 multimerization. In PDAC cells, BK-1361 affects ADAM8 function leading to reduced invasiveness, and less ERK1/2 and MMP activation. BK-1361 application in mice decreased tumour burden and metastasis of implanted pancreatic tumour cells and provides improved metrics of clinical symptoms and survival in a Kras(G12D)-driven mouse model of PDAC. Thus, our data integrate ADAM8 in pancreatic cancer signalling and validate ADAM8 as a target for PDAC therapy