60 research outputs found
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
Discovery of Dimeric Arylsulfonamides as Potent ADAM8 Inhibitors
The metalloproteinase ADAM8 is upregulated in several cancers but has a dispensable function under physiological conditions. In tumor cells, ADAM8 is involved in invasion, migration and angiogenesis. The use of bivalent inhibitors could impair migration and invasion, through the double binding to a homodimeric form of ADAM8 located on the cell surface of tumor cells. Herein we report the rational design and synthesis of the first dimeric ADAM8 inhibitors selective over ADAM10 and MMPs. Bivalent derivatives have been obtained by dimerizing the structure of a previously described ADAM17 inhibitor, JG26. In particular, derivative 2 showed to inhibit ADAM8 proteolytic activity in vitro and in cell-based assays, at nanomolar concentration. Moreover, it was more effective than the parent monomeric compound in blocking invasiveness in breast cancer MDA-MB-231 cell line, thus supporting our hypothesis about the importance of inhibiting the active homodimer of ADAM8
Expression of the Metalloproteinase ADAM8 Is Upregulated in Liver Inflammation Models and Enhances Cytokine Release In Vitro
Acute and chronic liver inflammation is driven by cytokine and chemokine release from various cell types in the liver. Here, we report that the induction of inflammatory mediators is associated with a yet undescribed upregulation of the metalloproteinase ADAM8 in different murine hepatitis models. We further show the importance of ADAM8 expression for the production of inflammatory mediators in cultured liver cells. As a model of acute inflammation, we investigated liver tissue from lipopolysaccharide- (LPS-) treated mice in which ADAM8 expression was markedly upregulated compared to control mice. In vitro, stimulation with LPS enhanced ADAM8 expression in murine and human endothelial and hepatoma cell lines as well as in primary murine hepatocytes. The enhanced ADAM8 expression was associated with an upregulation of TNF-α and IL-6 expression and release. Inhibition studies indicate that the cytokine response of hepatoma cells to LPS depends on the activity of ADAM8 and that signalling by TNF-α can contribute to these ADAM8-dependent effects. The role of ADAM8 was further confirmed with primary hepatocytes from ADAM8 knockout mice in which TNF-α and IL-6 induction and release were considerably attenuated. As a model of chronic liver injury, we studied liver tissue from mice undergoing high-fat diet-induced steatohepatitis and again observed upregulation of ADAM8 mRNA expression compared to healthy controls. In vitro, ADAM8 expression was upregulated in hepatoma, endothelial, and stellate cell lines by various mediators of steatohepatitis including fatty acid (linoleic-oleic acid), IL-1β, TNF-α, IFN-γ, and TGF-β. Upregulation of ADAM8 was associated with the induction and release of proinflammatory cytokines (TNF-α and IL-6) and chemokines (CX3CL1). Finally, knockdown of ADAM8 expression in all tested cell types attenuated the release of these mediators. Thus, ADAM8 is upregulated in acute and chronic liver inflammation and is able to promote inflammation by enhancing expression and release of inflammatory mediators
Profiling of metalloprotease activities in cerebrospinal fluids of patients with neoplastic meningitis
Background: Neoplastic invasion into leptomeninges and subarachnoid space, resulting in neoplastic meningitis (NM) is a fatal complication of advanced solid and hematological neoplasms. Identification of malignant involvement of the cerebrospinal fluid (CSF) early in the disease course has crucial prognostic and therapeutic implications, but remains challenging. As indicators of extracellular matrix (ECM) degradation and breakdown of the blood–brain-barrier, Matrix Metalloproteases (MMPs) and A Disintegrin and Metalloproteases (ADAMs) are potential analytes for cerebral pathophysiology and metastatic dissemination of tumor cells into the CSF. Methods: We compared protease activities in CSF samples from patients with NM and control individuals using FRET-based metalloprotease substrates with distinct enzyme selectivity profiles in a real-time, multiplex approach termed “proteolytic activity matrix assay” (PrAMA). Protease activity dynamics can be tracked by fluorescence changes over time. By simultaneously monitoring a panel of 5 FRET-substrate cleavages, a proteolytic signature can be identified and analyzed to infer the activities of multiple specific proteases. Distinct patterns of substrate cleavage comparing disease vs. control samples allow rapid, reproducible and sensitive discrimination even in small volumes of CSF. Results: Individual substrate cleavage rates were linked to distinct proteases, and PrAMA computational inference implied increased activities of MMP-9, ADAM8 and ADAM17 (4–5-fold on average) in CSF samples from NM patients that were inhibitable by the metalloprotease inhibitor batimastat (BB-94). The activities of these proteases correlated with blood–brain barrier impairment. Notably, CSF cell counts were not found to directly reflect the protease activities observed in CSF samples from NM patients; this may explain the frequent clinical observation of negative cytology in NM patients. Conclusion: PrAMA analysis of CSF samples is a potential diagnostic method for sensitive detection of NM and may be suitable for the clinical routine. Electronic supplementary material The online version of this article (doi:10.1186/s12987-017-0070-5) contains supplementary material, which is available to authorized users
Mucus detachment by host metalloprotease meprin \beta requires shedding of its inactive pro-form, which is abrogated by the pathogenic protease RgpB
The host metalloprotease meprin β is required for mucin 2 (MUC2) cleavage, which drives intestinal mucus detachment and prevents bacterial overgrowth. To gain access to the cleavage site in MUC2, meprin β must be proteolytically shed from epithelial cells. Hence, regulation of meprin β shedding and activation is important for physiological and pathophysiological conditions. Here, we demonstrate that meprin β activation and shedding are mutually exclusive events. Employing ex vivo small intestinal organoid and cell culture experiments, we found that ADAM-mediated shedding is restricted to the inactive pro-form of meprin β and is completely inhibited upon its conversion to the active form at the cell surface. This strict regulation of meprin β activity can be overridden by pathogens, as demonstrated for the bacterial protease Arg-gingipain (RgpB). This secreted cysteine protease potently converts membrane-bound meprin β into its active form, impairing meprin β shedding and its function as a mucus-detaching protease
Whole body and hematopoietic ADAM8 deficiency does not influence advanced atherosclerotic lesion development, despite its association with human plaque progression
Although A Disintegrin And Metalloproteinase 8 (ADAM8) is not crucial for tissue development and homeostasis, it has been implicated in various inflammatory diseases by regulating processes like immune cell recruitment and activation. ADAM8 expression has been associated with human atherosclerosis development and myocardial infarction, however a causal role of ADAM8 in atherosclerosis has not been investigated thus far. In this study, we examined the expression of ADAM8 in early and progressed human atherosclerotic lesions, in which ADAM8 was significantly upregulated in vulnerable lesions. In addition, ADAM8 expression was most prominent in the shoulder region of human atherosclerotic lesions, characterized by the abundance of foam cells. In mice, Adam8 was highly expressed in circulating neutrophils and in macrophages. Moreover, ADAM8 deficient mouse macrophages displayed reduced secretion of inflammatory mediators. Remarkably, however, neither hematopoietic nor whole-body ADAM8 deficiency in mice affected atherosclerotic lesion size. Additionally, except for an increase in granulocyte content in plaques of ADAM8 deficient mice, lesion morphology was unaffected. Taken together, whole body and hematopoietic ADAM8 does not contribute to advanced atherosclerotic plaque development, at least in female mice, although its expression might still be valuable as a diagnostic/ prognostic biomarker to distinguish between stable and unstable lesions
ADAM8 signaling drives neutrophil migration and ARDS severity
Acute respiratory distress syndrome (ARDS) results in catastrophic lung failure and has an urgent,
unmet need for improved early recognition and therapeutic development. Neutrophil influx is a
hallmark of ARDS and is associated with the release of tissue-destructive immune effectors, such
as matrix metalloproteinases (MMPs) and membrane-anchored metalloproteinase disintegrins
(ADAMs). Here, we observed using intravital microscopy that Adam8–/– mice had impaired
neutrophil transmigration. In mouse pneumonia models, both genetic deletion and pharmacologic
inhibition of ADAM8 attenuated neutrophil infiltration and lung injury while improving bacterial
containment. Unexpectedly, the alterations of neutrophil function were not attributable to impaired
proteolysis but resulted from reduced intracellular interactions of ADAM8 with the actin-based
motor molecule Myosin1f that suppressed neutrophil motility. In 2 ARDS cohorts, we analyzed
lung fluid proteolytic signatures and identified that ADAM8 activity was positively correlated with
disease severity. We propose that in acute inflammatory lung diseases such as pneumonia and
ARDS, ADAM8 inhibition might allow fine-tuning of neutrophil responses for therapeutic gain
Purification and Functional Characterization of Recombinant Human ADAM8 protease
From recent studies in different tumor entities it became apparent that the membrane-anchored metalloprotease-disintegrin ADAM8 plays an active role in tumor progression and consequently in patient prognosis. It is therefore desirable to understand the functional role of ADAM8 in vitro by characterizing the soluble extracellular part of ADAM8, which is called the ADAM8 ectodomain. The human ectodomain ADAM8 (hEctoA8) protein consists of the prodomain, metalloprotease domain (MP), a disintegrin domain (DIS), a cysteine-rich domain (Cys) and a EGF-like domain (EGF), whilst removal of the prodomain by autocatalysis leads to the active form of hEctoA8. Like the full-length ADAM8, hEctoA8 contains the catalytic consensus sequence HEXXHXXGXXHD in the metalloprotease domain and is therefore predicted to be proteolytically active. Up to now, functional studies on ADAM8 in vitro were hampered by the lack of sufficient quantities of folded, biologically active, and purified recombinant forms of hEctoA8. In our study, we successfully purified the recombinant hEctoA8 protein from supernatants of transfected HEK cells. Purified recombinant hEctoA8 containing the catalytic function of ADAM8 can cleave CD23 in cells in trans and FN in vitro; CD23 cleavage resulted in fragments of 37, 33, 25 and 16 kDa and FN cleavage by recombinant hEctoA8 resulted in 9 fragments, one fragment of 38 kDa contains a RGD motif essential for cell adhesion. Functionally, ADAM8-dependent cell adhesion of pancreatic tumor cells Panc1 was affected by FN cleavage and resulted in reduced cell adhesion. Concomitantly, a decreased expression of integrin α5; was found, whereas cleavage of FN by recombinant hEctoA8 had no effect on the expression levels of integrin β1, and on the activation of p-ERK1/2 and p-Akt
Conditional cell ablation by stringent tetracycline-dependent regulation of barnase in mammalian cells
Conditional expression of suicide genes in vivo has a wide range of applications in biological research and requires a minimal basal promoter activity in the uninduced state. To reduce basal activity of tetracycline (tc)-inducible target promoters we combined synthetic tet operators in varying numbers with a core promoter derived from the plant viral 35S promoter. An optimized promoter, P(TF), was found to exert a stringent regulation of luciferase in combination with tTA and rtTA in different mammalian cell lines. We linked P(TF) to the barnase gene, coding for a highly active RNase from Bacillus amyloliquefaciens. Stable cell clones expressing barnase under control of tTA exerted cell death only after tc withdrawal, correlating with a 10-fold induction of barnase mRNA expression. Directing tTA expression through a neuron-specific enolase promoter (P(NSE)) leads to barnase expression and cell death in neuronal cells after tc withdrawal. Taken together, our data demonstrate that a stringent control of barnase expression in the uninduced state improves cell ablation studies, as high frequencies of transgene propagation in both cell lines and in transgenic mice are observed
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