M. Mastrototaro scite author profile

Neuromyelitis optica (NMO) is an inflammatory autoimmune demyelinating disease of the central nervous system (CNS) which in autoantibodies produced by patients with NMO (NMO-IgG) recognize a glial water channel protein, Aquaporin-4 (AQP4) expressed as two major isoforms, M1- and M23-AQP4, in which the plasma membrane form orthogonal arrays of particles (OAPs). AQP4-M23 is the OAP-forming isoform, whereas AQP4-M1 alone is unable to form OAPs. The function of AQP4 organization into OAPs in normal physiology is unknown; however, alteration in OAP assemblies is reported for several CNS pathological states. In this study, we demonstrate that in the CNS, NMO-IgG is able to pull down both M1- and M23-AQP4 but experiments performed using cells selectively transfected with M1- or M23-AQP4 and native tissues show NMO-IgG epitope to be intrinsic in AQP4 assemblies into OAPs. Other OAP-forming water-channel proteins, such as the lens Aquaporin-0 and the insect Aquaporin-cic, were not recognized by NMO-IgG, indicating an epitope characteristic of AQP4-OAPs. Finally, water transport measurements show that NMO-IgG treatment does not significantly affect AQP4 function. In conclusion, our results suggest for the first time that OAP assemblies are required for NMO-IgG to recognize AQP4.

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Identification of Two Major Conformational Aquaporin-4 Epitopes for Neuromyelitis Optica Autoantibody Binding

Pisani

Mastrototaro

Rossi

et al. 2011

Journal of Biological Chemistry

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Neuromyelitis optica (NMO) is an autoimmune demyelinating disease characterized by the presence of anti-aquaporin-4 (AQP4) antibodies in the patient sera. We recently reported that these autoantibodies are able to bind AQP4 when organized in the supramolecular structure called the orthogonal array of particles (OAP). To map the antigenic determinants, we produced a series of AQP4 mutants based on multiple alignment sequence analysis between AQP4 and other OAP-forming AQPs. Mutations were introduced in the three extracellular loops (A, C, and E), and the binding capacity of NMO sera was tested on AQP4 mutants. Results indicate that one group of sera was able to recognize a limited portion of loop C containing the amino acid sequence 146 GVT(T/M)V 150 . A second group of sera was characterized by a predominant role of loop A. Deletion of four AQP4-specific amino acids ( 61 G(S/T)E(N/K) 64 ) in loop A substantially affected the binding of this group of sera. However, the binding capacity was further reduced when amino acids in loop A were mutated together with those in loop E or when those in loop C were mutated in combination with loop E. Finally, a series of AQP0 mutants were produced in which the extracellular loops were progressively changed to make them identical to AQP4. Results showed that none of the mutants was able to reproduce in AQP0 the NMO-IgG epitopes, indicating that the extracellular loop sequence by itself was not sufficient to determine the rearrangement required to create the epitopes. Although our data highlight the complexity of the disease, this study identifies key immunodominant epitopes and provides direct evidence that the transition from AQP4 tetramers to AQP4-OAPs involves conformational changes of the extracellular loops. NMO2 is a devastating autoimmune demyelinating disease, affecting primarily young women, and is associated with NMOIgG antibodies detectable in the patient serum (1-6). Immunofluorescence using AQP4 null mice and AQP4-transfected cells (2) has amply demonstrated that the target of these autoantibodies is aquaporin-4 (AQP4), a water channel protein abundantly expressed in astrocyte end-foot near capillaries (7,8). Autoantibodies against AQP4 (IgG) are found in about 75% of NMO patients, together with other autoantibodies for other proteins, including anti-myelin oligodendrocyte glycoprotein, anti-myelin basic protein, anti-S100 calcium-binding protein B (S100␤), anti-cleavage polyadenylation specificity factor (CPSF-73), and anti-RING finger protein 141 (RNF-141) (2, 9 -12). These other autoantibodies bind extra-or intracellular antigens liberated from dead cells and do not seem to have a pathogenic role in the NMO pathology (13). Anti-AQP4 IgG may act through the activation of multiple potentially neuropathogenic mechanisms contributing to injury to astrocytes and to the breakdown of the blood-brain barrier. These mechanisms include AQP4 internalization, an alteration of water and glutamate homeostasis, activation of antibody-dependent, cell-mediated cytotoxicity, and...

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Higher order structure of aquaporin-4

Nicchia¹,

Rossi²,

Mola³

et al. 2010

Neuroscience

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Aquaporin-4 expression is severely reduced in human sarcoglycanopathies and dysferlinopathies

Assereto¹,

Mastrototaro²,

Stringara³

et al. 2008

Cell Cycle

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Aquaporin-4 (AQP4) is the major water channel expressed in fast-twitch skeletal muscle fibers. AQP4 is reduced in Duchenne and Becker Muscular Dystrophies, but not in caveolinopathies, thus suggesting an interaction with dystrophin or with members of the dystrophin-glycoprotein complex (DGC) rather than a nonspecific effect due to muscle membrane damage. To establish the role of sarcoglycans in AQP4 decrease occurring in muscular dystrophy, AQP4 expression was analyzed in muscle biopsies from patients affected by Limb Girdle Muscular Dystrophies (LGMDs) 2C-F genetically confirmed. In all the LGMD 2C-F (2α-, 1β-, 2γ-, 1δ-deficiency), AQP4 was severely decreased. This effect was associated to a marked reduction in α1-syntrophin levels. In control muscle AQP4 did not show a direct interaction with any of the four sarcoglycans but, it co-immunoprecipitated with α1-syntrophin, indicating that this modular protein may link AQP4 levels with the DGC complex. To determine whether AQP4 expression could be affected in other LGMDs due to the defect of a membrane protein not associated to the dystrophin complex, we examined AQP4 expression in 6 patients affected by dysferlin deficiency genetically confirmed. All the patients displayed a reduction of the water channel, and AQP4 expression appeared to correlate with the severity of the muscle histopathological lesions. However, differently from what observed in the sarcoglycans, α1-syntrophin expression was normal or just slightly reduced. These results seem to indicate an additional mechanism of regulation of AQP4 levels in muscle cells.In accordance with a specific effect of membrane muscle disorders, AQP4 protein levels were not changed in 3 mitochondrial and 3 metabolic myopathies. In conclusion, AQP4 expression and membrane localization are markedly reduced in LGMD 2B-2F. The role of AQP4 in the degenerative mechanism occurring in these diseases will be the object of our future research.

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Immunological Modifications Induced from Products Used during the Perioperative Period

Cardinale

Mastrototaro

Cappiello

et al. 2011

Int J Immunopathol Pharmacol

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Anesthetics and other products used during the perioperative period may influence immune function not only merely by reducing the HPA-axis stress response but also by directly modulating innate and adaptive immune responses. Most of the literature on the immune effects of anesthetics has been derived from in vitro or animal studies, due to the number of confounding variables in “real life” surgical settings. These immunosuppressive effects might not normally have clinical consequences for an immune-competent patient, but may act as important modifiers in postoperative morbidity and mortality. Furthermore, some inhibitory effects on neutrophil functions may provide a therapeutically beneficial effect under specific surgical clinical conditions, such as ischemia-reperfusion injury.

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M. Mastrototaro

Aquaporin‐4 orthogonal arrays of particles are the target for neuromyelitis optica autoantibodies

Identification of Two Major Conformational Aquaporin-4 Epitopes for Neuromyelitis Optica Autoantibody Binding

Higher order structure of aquaporin-4

Aquaporin-4 expression is severely reduced in human sarcoglycanopathies and dysferlinopathies

Immunological Modifications Induced from Products Used during the Perioperative Period

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