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4. AQP4-dependent glioma cell features affect the phenotype of surrounding cells via extracellular vesicles

Author

Simone, L, Pisani, F, Binda, E, Frigeri, A, Vescovi, A, Svelto, M, Nicchia, G, Simone L., Pisani F., Binda E., Frigeri A., Vescovi A. L., Svelto M., Nicchia G. P., Simone, L, Pisani, F, Binda, E, Frigeri, A, Vescovi, A, Svelto, M, Nicchia, G, Simone L., Pisani F., Binda E., Frigeri A., Vescovi A. L., Svelto M., and Nicchia G. P.

Abstract

Background: Extracellular vesicles (EVs) are membrane-enclosed particles released systemically by all cells, including tumours. Tumour EVs have been shown to manipulate their local environments as well as distal targets to sustain the tumour in a variety of tumours, including glioblastoma (GBM). We have previously demonstrated the dual role of the glial water channel aquaporin-4 (AQP4) protein in glioma progression or suppression depending on its aggregation state. However, its possible role in communication mechanisms in the microenvironment of malignant gliomas remains to be unveiled. Results: Here we show that in GBM cells AQP4 is released via EVs that are able to affect the GBM microenvironment. To explore this role, EVs derived from invasive GBM cells expressing AQP4-tetramers or apoptotic GBM cells expressing orthogonal arrays of particles (AQP4-OAPs) were isolated, using a differential ultracentrifugation method, and were added to pre-seeded GBM cells. Confocal microscopy analysis was used to visualize the interaction and uptake of AQP4-containing EVs by recipient cells. Chemoinvasion and Caspase3/7 activation assay, performed on recipient cells after EVs uptake, revealed that EVs produced by AQP4-tetramers expressing cells were able to drive surrounding tumour cells toward the migratory phenotype, whereas EVs produced by AQP4-OAPs expressing cells drive them toward the apoptosis pathway. Conclusion: This study demonstrates that the different GBM cell phenotypes can be transferred by AQP4-containing EVs able to influence tumour cell fate toward invasiveness or apoptosis. This study opens a new perspective on the role of AQP4 in the brain tumour microenvironment associated with the EV-dependent communication mechanism.

Published
2022

6. AQP4 aggregation state is a determinant for glioma cell fate

Author

Simone, L, Pisani, F, Mola, M, De Bellis, M, Merla, G, Micale, L, Frigeri, A, Vescovi, A, Svelto, M, Nicchia, G, Simone L., Pisani F., Mola M. G., De Bellis M., Merla G., Micale L., Frigeri A., Vescovi A. L., Svelto M., Nicchia G. P., Simone, L, Pisani, F, Mola, M, De Bellis, M, Merla, G, Micale, L, Frigeri, A, Vescovi, A, Svelto, M, Nicchia, G, Simone L., Pisani F., Mola M. G., De Bellis M., Merla G., Micale L., Frigeri A., Vescovi A. L., Svelto M., and Nicchia G. P.

Abstract

The glial water channel protein aquaporin-4 (AQP4) forms heterotetramers in the plasma membrane made of the M23-AQP4 and M1-AQP4 isoforms. The isoform ratio controls AQP4 aggregation into supramolecular structures called orthogonal arrays of particles (AQP4-OAP). The role of AQP4 aggregation into OAP in malignant gliomas is still unclear. In this study, we demonstrate that AQP4 aggregation/disaggregation into OAP influences the biology of glioma cells. Selective expression of the OAP-forming isoform M23-AQP4 (AQP4-OAP) triggered cell shape changes in glioma cells associated with alterations to the F-actin cytoskeleton that affected apoptosis. By contrast, expression of M1-AQP4 (AQP4-tetramers), which is unable to aggregate into OAP, ameliorated glioma cell invasiveness, improved cell migration, and increased methalloproteinase-9 activity. Two prolines (254 and 296) at the C-terminus tail were shown to be important in mediating the relationship between the actin cytoskeleton and AQP4-OAP and AQP4-tetramers. In conclusion, this study demonstrates that AQP4 aggregation state might be an important determinant in orienting glioma cells to persist or perish. AQP4 disaggregation may potentiate invasiveness potential, whereas AQP4 aggregation may activate the apoptotic path. This study shows a new perspective on the role of AQP4 in brain tumors not necessarily associated with edema formation but with AQP4 aggregation/disaggregation dynamics and their link with the actin cytoskeleton. Significance: This study demonstrates how AQP4 aggregation influences plasma membrane dynamics to alter cell proliferation, invasiveness, migration, and apoptotic potential in glioma cells.

Published
2019

7. Transplantation of clinical-grade human neural stem cells reduces neuroinflammation, prolongs survival and delays disease progression in the SOD1 rats

Author

Zalfa, C, Rota Nodari, L, Vacchi, E, Gelati, M, Profico, D, Boido, M, Binda, E, De Filippis, L, Copetti, M, Garlatti, V, Daniele, P, Rosati, J, De Luca, A, Pinos, F, Cajola, L, Visioli, A, Mazzini, L, Vercelli, A, Svelto, M, Vescovi, A, Ferrari, D, Zalfa C., Rota Nodari L., Vacchi E., Gelati M., Profico D., Boido M., Binda E., De Filippis L., Copetti M., Garlatti V., Daniele P., Rosati J., De Luca A., Pinos F., Cajola L., Visioli A., Mazzini L., Vercelli A., Svelto M., Vescovi A. L., Ferrari D., Zalfa, C, Rota Nodari, L, Vacchi, E, Gelati, M, Profico, D, Boido, M, Binda, E, De Filippis, L, Copetti, M, Garlatti, V, Daniele, P, Rosati, J, De Luca, A, Pinos, F, Cajola, L, Visioli, A, Mazzini, L, Vercelli, A, Svelto, M, Vescovi, A, Ferrari, D, Zalfa C., Rota Nodari L., Vacchi E., Gelati M., Profico D., Boido M., Binda E., De Filippis L., Copetti M., Garlatti V., Daniele P., Rosati J., De Luca A., Pinos F., Cajola L., Visioli A., Mazzini L., Vercelli A., Svelto M., Vescovi A. L., and Ferrari D.

Abstract

Stem cells are emerging as a therapeutic option for incurable diseases, such as Amyotrophic Lateral Sclerosis (ALS). However, critical issues are related to their origin as well as to the need to deepen our knowledge of the therapeutic actions exerted by these cells. Here, we investigate the therapeutic potential of clinical-grade human neural stem cells (hNSCs) that have been successfully used in a recently concluded phase I clinical trial for ALS patients (NCT01640067). The hNSCs were transplanted bilaterally into the anterior horns of the lumbar spinal cord (four grafts each, segments L3–L4) of superoxide dismutase 1 G93A transgenic rats (SOD1 rats) at the symptomatic stage. Controls included untreated SOD1 rats (CTRL) and those treated with HBSS (HBSS). Motor symptoms and histological hallmarks of the disease were evaluated at three progressive time points: 15 and 40 days after transplant (DAT), and end stage. Animals were treated by transient immunosuppression (for 15 days, starting at time of transplantation). Under these conditions, hNSCs integrated extensively within the cord, differentiated into neural phenotypes and migrated rostro-caudally, up to 3.77 ± 0.63 cm from the injection site. The transplanted cells delayed decreases in body weight and deterioration of motor performance in the SOD1 rats. At 40DAT, the anterior horns at L3–L4 revealed a higher density of motoneurons and fewer activated astroglial and microglial cells. Accordingly, the overall survival of transplanted rats was significantly enhanced with no rejection of hNSCs observed. We demonstrated that the beneficial effects observed after stem cell transplantation arises from multiple events that counteract several aspects of the disease, a crucial feature for multifactorial diseases, such as ALS. The combination of therapeutic approaches that target different pathogenic mechanisms of the disorder, including pharmacology, molecular therapy and cell transplantation, will increase the chances of

Published
2019

10. p53 Is a Master Regulator of Proteostasis in SMARCB1-Deficient Malignant Rhabdoid Tumors

Author

Carugo, A., Minelli, R., Sapio, L., Soeung, M., Carbone, F., Robinson, F. S., Tepper, J., Chen, Z., Lovisa, S., Svelto, M., Amin, S., Srinivasan, S., Del Poggetto, E., Loponte, S., Puca, F., Dey, P., Malouf, G. G., Su, X., Li, L., Lopez-Terrada, D., Rakheja, D., Lazar, A. J., Netto, G. J., Rao, P., Sgambato, A., Maitra, A., Tripathi, D. N., Walker, C. L., Karam, J. A., Heffernan, T. P., Viale, A., Roberts, C. W. M., Msaouel, P., Tannir, N. M., Draetta, G. F., Genovese, G., Sgambato A. (ORCID:0000-0002-9487-4563), Genovese G., Carugo, A., Minelli, R., Sapio, L., Soeung, M., Carbone, F., Robinson, F. S., Tepper, J., Chen, Z., Lovisa, S., Svelto, M., Amin, S., Srinivasan, S., Del Poggetto, E., Loponte, S., Puca, F., Dey, P., Malouf, G. G., Su, X., Li, L., Lopez-Terrada, D., Rakheja, D., Lazar, A. J., Netto, G. J., Rao, P., Sgambato, A., Maitra, A., Tripathi, D. N., Walker, C. L., Karam, J. A., Heffernan, T. P., Viale, A., Roberts, C. W. M., Msaouel, P., Tannir, N. M., Draetta, G. F., Genovese, G., Sgambato A. (ORCID:0000-0002-9487-4563), and Genovese G.

Abstract

Alterations in chromatin remodeling genes have been increasingly implicated in human oncogenesis. Specifically, the biallelic inactivation of the SWI/SNF subunit SMARCB1 results in the emergence of extremely aggressive pediatric malignancies. Here, we developed embryonic mosaic mouse models of malignant rhabdoid tumors (MRTs) that faithfully recapitulate the clinical-pathological features of the human disease. We demonstrated that SMARCB1-deficient malignancies exhibit dramatic activation of the unfolded protein response (UPR) and ER stress response via a genetically intact MYC-p19 ARF -p53 axis. As a consequence, these tumors display an exquisite sensitivity to agents inducing proteotoxic stress and inhibition of the autophagic machinery. In conclusion, our findings provide a rationale for drug repositioning trials investigating combinations of agents targeting the UPR and autophagy in SMARCB1-deficient MRTs.

Published
2019

13. Massive transcriptome sequencing of human spinal cord tissues provides new insights into motor neuron degeneration in ALS

Author

D'Erchia, A. M., Gallo, A., Manzari, C., Raho, S., Horner, D. S., Chiara, M., Valletti, A., Aiello, I., Mastropasqua, F., Ciaccia, L., Locatelli, Franco, Pisani, F., Nicchia, G. P., Svelto, M., Pesole, G., Picardi, E., Locatelli F. (ORCID:0000-0002-7976-3654), D'Erchia, A. M., Gallo, A., Manzari, C., Raho, S., Horner, D. S., Chiara, M., Valletti, A., Aiello, I., Mastropasqua, F., Ciaccia, L., Locatelli, Franco, Pisani, F., Nicchia, G. P., Svelto, M., Pesole, G., Picardi, E., and Locatelli F. (ORCID:0000-0002-7976-3654)

Abstract

ALS is a devastating and debilitating human disease characterized by the progressive death of upper and lower motor neurons. Although much effort has been made to elucidate molecular determinants underlying the onset and progression of the disorder, the causes of ALS remain largely unknown. In the present work, we have deeply sequenced whole transcriptome from spinal cord ventral horns of post-mortem ALS human donors affected by the sporadic form of the disease (which comprises ∼90% of the cases but which is less investigated than the inherited form of the disease). We observe 1160 deregulated genes including 18 miRNAs and show that down regulated genes are mainly of neuronal derivation while up regulated genes have glial origin and tend to be involved in neuroinflammation or cell death. Remarkably, we find strong deregulation of SNAP25 and STX1B at both mRNA and protein levels suggesting impaired synaptic function through SNAP25 reduction as a possible cause of calcium elevation and glutamate excitotoxicity. We also note aberrant alternative splicing but not disrupted RNA editing.

Published
2017

14. SOCS3 and IRS-1 Gene Expression Differs Between Genotype 1 and Genotype 2 HCV-Infected HEPG2 Cells

Author

PERSICO, LICER ENRICO ANGELO, RUSSO, RAFFAELE, CAPASSO, MARTA, TIRIBELLI, CLAUDIO, Persico, E, Svelto, M, Spano, D, Andolfo, I, La Mura, V, Torella, R, Iolascon, A., Persico, LICER ENRICO ANGELO, Russo, Raffaele, Persico, E, Svelto, M, Spano, D, Andolfo, I, La Mura, V, Capasso, Marta, Tiribelli, Claudio, Torella, R, and Iolascon, A.

Subjects
Gene Expression Regulation* Genotype Hep G2 Cells Hepacivirus/physiology* Hepatitis C/genetics* Hepatitis C/metabolism Humans Insulin Receptor Substrate Proteins/genetics* Insulin Receptor Substrate Proteins/metabolism* Proto-Oncogene Proteins c-akt/metabolism Suppressor of Cytokine Signaling Proteins/genetics* Suppressor of Cytokine Signaling Proteins/metabolism* Virus Replication
Abstract

BACKGROUND: The poor response to antiviral treatment of hepatitis C virus (HCV)-infected patients with genotype 1b has been associated with a higher prevalence of metabolic syndrome. However, the molecular link between these clinical entities is not clear. The goal of this study was to clarify the role of genotype 1b and 2 in the genetic expression of suppressor of cytokine signaling 3 (SOCS3) and insulin receptor substrate 1 (IRS-1). METHODS: We infected human hepatocellular carcinoma cell line (HepG2) cells with human HCV genotype 1b or 2 and measured the gene and protein expression of SOCS3 at various times. We also evaluated impairment in the insulin pathway by analysis of IRS-1 and phospho-AKT. For the control, we used HepG2 cell cultures treated with non-infectious serum. We also demonstrated the occurrence of HCV infection by the detection of both positive and negative strands in the cells and culture medium. To test infection of the HepG2 cells, we performed quantitative real-time polymerase chain reaction (qRT-PCR) of viral load at different time points. We analyzed the viral genotype in the pellet and supernatant. RESULTS: At each time point, we found positive and negative strands in the infected cells, while in the medium we found positive, but no negative strands. We also detected the presence of the correct genotype in the medium. Two weeks following infection when the viral load was higher, we tested genotype 1b and 2 infected cells. SOCS3 gene expression was significantly higher in genotype 1b-infected cells (median 2.56; mean 2.82+/-0.59) compared with genotype 2 (median 1.34; mean 1.46+/-0.31) (p=0.04) and control cells (median 1.09; mean 1.02+/-0.11, p=0.02). There was no difference between cells exposed to genotype 2 and control cells. Conversely, IRS-1 was significantly lower in genotype 1b-infected cells (median 15.97; mean 15.45+/-0.67) compared with genotype 2-infected cells (median 16.45; mean 16.44+/-0.01, p=0.04). Statistically significant differences were seen when comparing the pAKT/AKT ratio in genotype 1b-infected cells (0.19+/-0.034) and not genotype 1b-infected (genotype 2-infected and non-infected) cells (0.253+/-0.004, p=0.03). This inverse regulation is compatible with interactions between the molecular expression of SOCS3, IRS-1 and phospho-AKT mediated by the genotype 1b virus. CONCLUSIONS: Up-regulation of the SOCS3 gene might be one of the mechanisms governing non-response to therapy and expression of insulin resistance mediated via a direct mechanism at this level of genotype 1b HCV.

Published
2009

17. A protein kinase a-independent pathway controlling aquaporin 2 trafficking as a possible cause for the syndrome of inappropriate antidiuresis associated with polycystic kidney disease 1 haploinsufficiency.

Author

Tamma, G., Lasorsa, D., Trimpert, C., Ranieri, M., Mise, A. Di, Mola, M.G., Mastrofrancesco, L., Devuyst, O., Svelto, M., Deen, P.M.T., Valenti, G., Tamma, G., Lasorsa, D., Trimpert, C., Ranieri, M., Mise, A. Di, Mola, M.G., Mastrofrancesco, L., Devuyst, O., Svelto, M., Deen, P.M.T., and Valenti, G.

Abstract

1 oktober 2014, Contains fulltext : 137941.pdf (publisher's version ) (Closed access), Renal water reabsorption is controlled by arginine vasopressin (AVP), which binds to V2 receptors, resulting in protein kinase A (PKA) activation, phosphorylation of aquaporin 2 (AQP2) at serine 256, and translocation of AQP2 to the plasma membrane. However, AVP also causes dephosphorylation of AQP2 at S261. Recent studies showed that cyclin-dependent kinases (cdks) can phosphorylate AQP2 peptides at S261 in vitro. We investigated the possible role of cdks in the phosphorylation of AQP2 and identified a new PKA-independent pathway regulating AQP2 trafficking. In ex vivo kidney slices and MDCK-AQP2 cells, R-roscovitine, a specific inhibitor of cdks, increased pS256 levels and decreased pS261 levels. The changes in AQP2 phosphorylation status were paralleled by increases in cell surface expression of AQP2 and osmotic water permeability in the absence of forskolin stimulation. R-Roscovitine did not alter cAMP-dependent PKA activity but specifically reduced protein phosphatase 2A (PP2A) expression and activity in MDCK cells. Notably, we found reduced PP2A expression and activity and reduced pS261 levels in Pkd1(+/-) mice displaying a syndrome of inappropriate antidiuresis with high levels of pS256, despite unchanged AVP and cAMP. Similar to previous findings in Pkd1(+/-) mice, R-roscovitine treatment caused a significant decrease in intracellular calcium in MDCK cells. Our data indicate that reduced activity of PP2A, secondary to reduced intracellular Ca(2+) levels, promotes AQP2 trafficking independent of the AVP-PKA axis. This pathway may be relevant for explaining pathologic states characterized by inappropriate AVP secretion and positive water balance.

Published
2014

18. A Protein Kinase A-Independent Pathway Controlling Aquaporin 2 Trafficking as a Possible Cause for the Syndrome of Inappropriate Antidiuresis Associated with Polycystic Kidney Disease 1 Haploinsufficiency

Author

UCL - SSS/IREC/NEFR - Pôle de Néphrologie, UCL - (SLuc) Service de néphrologie, Tamma, G., Lasorsa, D., Trimpert, C., Ranieri, M., Di Mise, A., Mola, M. G., Mastrofrancesco, L., Devuyst, Olivier, Svelto, M., Deen, P. M. T., Valenti, G., UCL - SSS/IREC/NEFR - Pôle de Néphrologie, UCL - (SLuc) Service de néphrologie, Tamma, G., Lasorsa, D., Trimpert, C., Ranieri, M., Di Mise, A., Mola, M. G., Mastrofrancesco, L., Devuyst, Olivier, Svelto, M., Deen, P. M. T., and Valenti, G.

Published
2014

22. New Insights into the CD133 (Prominin-1) Expression in Mouse and Human Colon Cancer Cells

Author

Sgambato, Alessandro, Corbi, M, Svelto, M, Caredda, E, Cittadini, A., Sgambato, Alessandro (ORCID:0000-0002-9487-4563), Sgambato, Alessandro, Corbi, M, Svelto, M, Caredda, E, Cittadini, A., and Sgambato, Alessandro (ORCID:0000-0002-9487-4563)

Abstract

Following its discovery as a cancer stem cell marker, CD133 has been widely studied for its role in colorectal tumorigenesis. Indeed, colon cancer remains one of the major causes of cancer-related disease and death worldwide, and there is a strong need for an improvement of current diagnostic, prognostic, and therapeutic strategies. Thus, efforts have been devoted to try to understand whether CD133 might play a role in human colorectal tumorigenesis and might contribute to a better management of colon cancer patients. This chapter reviews the current knowledge on CD133 expression in normal and cancer colon tissues, both in humans and mice, discussing apparently conflicting data reported in the two species. Moreover, a great attention is devoted to the available information regarding the functional role of CD133 in colon cancer cells. Finally, the proposed clinical applications of CD133, as a prognostic and/or predictive marker as well as a target for novel antineoplastic strategies in colorectal cancer, are discussed. Overall, the available data support a potential important role of CD133 as cancer stem cell marker in colon cancer cells and warrant future studies to verify its potential use in the routine clinical management of colon cancer patients.

Published
2013

24. Aquaporin 2 and apical calcium-sensing receptor: new players in polyuric disorders associated with hypercalciuria.

Author

Procino, G., Mastrofrancesco, L., Mira, A., Tamma, G., Carmosino, M., Emma, F., Svelto, M., Valenti, G., Procino, G., Mastrofrancesco, L., Mira, A., Tamma, G., Carmosino, M., Emma, F., Svelto, M., and Valenti, G.

Abstract

Contains fulltext : 69897.pdf (publisher's version ) (Closed access), The kidney plays a critical role in regulating water homeostasis through specific proteins highly expressed in the kidney, called aquaporins, allowing water permeation at a high rate. This brief review focuses on some nephropathies associated with impaired urinary concentrating ability and in particular analyzes the role of aquaporin 2 in hypercalciuria, the most common metabolic abnormality in patients with nephrolithiasis. Specifically, this review discusses the relationship between hypercalciuria and impaired aquaporin 2-mediated water handling in both acquired and inherited disorders characterized by hypercalciuria, including those affecting the sensor of extracellular calcium concentration, the calcium-sensing receptor, which represents the principal target for extracellular calcium regulation of several tissues including parathyroid glands and kidney. In the kidney, the calcium-sensing receptor regulates renal calcium excretion and influences the transepithelial movement of water and other electrolytes. Understanding the molecular basis of alteration of kidney concentrating ability found in hypercalciuria will help for devising strategies for reducing the risk of nephrocalcinosis, nephrolithiasis, and renal insufficiency.

Published
2008

25. Functional involvement of Annexin-2 in cAMP induced AQP2 trafficking.

Author

Tamma, G., Procino, G., Mola, M.G., Svelto, M., Valenti, G., Tamma, G., Procino, G., Mola, M.G., Svelto, M., and Valenti, G.

Abstract

Contains fulltext : 70255.pdf (publisher's version ) (Closed access), Annexin-2 is required for the apical transport in epithelial cells. In this study, we investigated the involvement of annexin-2 in cAMP-induced aquaporin-2 (AQP2) translocation to the apical membrane in renal cells. We found that the cAMP-elevating agent forskolin increased annexin-2 abundance in the plasma membrane enriched fraction with a parallel decrease in the soluble fraction. Interestingly, forskolin stimulation resulted in annexin-2 enrichment in lipid rafts, suggesting that hormonal stimulation might be responsible for a new configuration of membrane interacting proteins involved in the fusion of AQP2 vesicles to the apical plasma membrane. To investigate the functional involvement of annexin-2 in AQP2 exocytosis, the fusion process between purified AQP2 membrane vesicles and plasma membranes was reconstructed in vitro and monitored by a fluorescence assay. An N-terminal peptide that comprises 14 residues of annexin-2 and that includes the binding site for the calcium binding protein p11 strongly inhibited the fusion process. Preincubation of cells with this annexin-2 peptide also failed to increase the osmotic water permeability in the presence of forskolin in intact cells. Altogether, these data demonstrate that annexin-2 is required for cAMP-induced AQP2 exocytosis in renal cells.

Published
2008

26. AQP2 exocytosis in the renal collecting duct -- involvement of SNARE isoforms and the regulatory role of Munc18b.

Author

Procino, G., Barbieri, C., Tamma, G., Benedictis, L. De, Pessin, J.E., Svelto, M., Valenti, G., Procino, G., Barbieri, C., Tamma, G., Benedictis, L. De, Pessin, J.E., Svelto, M., and Valenti, G.

Abstract

Contains fulltext : 69049.pdf (publisher's version ) (Open Access), Vasopressin regulates the fusion of the water channel aquaporin 2 (AQP2) to the apical membrane of the renal collecting-duct principal cells and several lines of evidence indicate that SNARE proteins mediate this process. In this work MCD4 renal cells were used to investigate the functional role of a set of Q- and R-SNAREs, together with that of Munc18b as a negative regulator of the formation of the SNARE complex. Both VAMP2 and VAMP3 were associated with immunoisolated AQP2 vesicles, whereas syntaxin 3 (Stx3), SNAP23 and Munc18 were associated with the apical plasma membrane. Co-immunoprecipitation experiments indicated that Stx3 forms complexes with VAMP2, VAMP3, SNAP23 and Munc18b. Protein knockdown coupled to apical surface biotinylation demonstrated that reduced levels of the R-SNAREs VAMP2 and VAMP3, and the Q-SNAREs Stx3 and SNAP23 strongly inhibited AQP2 fusion at the apical membrane. In addition, knockdown of Munc18b promoted a sevenfold increase of AQP2 fused at the plasma membrane without forskolin stimulation. Taken together these findings propose VAMP2, VAMP3, Stx3 and SNAP23 as the complementary set of SNAREs responsible for AQP2-vesicle fusion into the apical membrane, and Munc18b as a negative regulator of SNARE-complex formation in renal collecting-duct principal cells.

Published
2008

27. Hypotonicity induces aquaporin-2 internalization and cytosol-to-membrane translocation of ICln in renal cells.

Author

Tamma, G., Procino, G., Strafino, A., Bononi, E., Meyer, G., Paulmichl, M., Formoso, V., Svelto, M., Valenti, G., Tamma, G., Procino, G., Strafino, A., Bononi, E., Meyer, G., Paulmichl, M., Formoso, V., Svelto, M., and Valenti, G.

Abstract

Item does not contain fulltext, Kidney collecting-duct cells swell in response to changes in medulla osmolality caused by the transition from antidiuresis to diuresis. Regulatory volume decrease (RVD) mechanisms must be activated to face this hypotonic stress. In Aquaporin-2 (AQP2)-expressing renal CD8 cells, hypotonicity decreased cell surface expression of AQP2 and increased the amount of AQP2 localized intracellularly, whereas the total amount of AQP2 phosphorylated at ser-256 decreased. Analysis of cAMP dynamics using fluorescence resonance energy transfer (FRET) showed that hypotonicity causes a reduction of cAMP, consistent with a decrease in phospho-AQP2. Moreover, hypotonicity caused a profound actin reorganization, associated with the loss of stress fibers and formation of F-actin patches (microspikes) at the cell border. Those changes were regulated by the monomeric GTPase Cdc42. Interestingly, expression of the dominant-negative Cdc42 (N17-Cdc42) prevented the hypotonicity-induced microspike formation and the generation of Cl(-) currents. Hypotonicity also caused the relocation from the cytosol to the plasma membrane and increase in interaction with actin of ICln (nucleotide-sensitive chloride current protein), which is essential for the generation of ion currents activated during RVD. Together, the profound actin remodeling, internalization of AQP2 and translocation of ICln to the plasma membrane during hypotonicity may contribute to RVD after cell swelling in renal medulla.

Published
2007

28. Hypotonicity causes actin reorganization and recruitment of the actin-binding ERM protein moesin in membrane protrusions in collecting duct principal cells.

Author

Tamma, G., Procino, G., Svelto, M., Valenti, G., Tamma, G., Procino, G., Svelto, M., and Valenti, G.

Abstract

Contains fulltext : 52752.pdf (publisher's version ) (Closed access), Hypotonicity-induced cell swelling is characterized by a modification in cell architecture associated with actin cytoskeleton remodeling. The ezrin/radixin/moesin (ERM) family proteins are important signal transducers during actin reorganization regulated by the monomeric G proteins of the Rho family. We report here that in collecting duct CD8 cells hypotonicity-induced cell swelling resulted in deep actin reorganization, consisting of loss of stress fibers and formation of F-actin patches in membrane protrusions where the ERM protein moesin was recruited. Cell swelling increased the interaction between actin and moesin and induced the transition of moesin from an oligomeric to a monomeric functional conformation, characterized by both the COOH- and NH(2)-terminal domains being exposed. In this conformation, which is stabilized by phosphorylation of a conserved threonine in the COOH-terminal domain by PKC or Rho kinase, moesin can bind interacting proteins. Interestingly, hypotonic stress increased the amount of threonine-phosphorylated moesin, which was prevented by the PKC-alpha inhibitor Go-6976 (50 nM). In contrast, the Rho kinase inhibitor Y-27632 (1 microM) did not affect the hypotonicity-induced increase in phosphorylated moesin. The present data represent the first evidence that hypotonicity-induced actin remodeling is associated with phosphorylated moesin recruitment at the cell border and interaction with actin.

Published
2007

29. Characterization of two novel missense mutations in the AQP2 gene causing nephrogenic diabetes insipidus.

Author

Iolascon, A., Aglio, V., Tamma, G., D'Apolito, M., Addabbo, F., Procino, G., Simonetti, M.C., Montini, G., Gesualdo, L., Debler, E.W., Svelto, M., Valenti, G., Iolascon, A., Aglio, V., Tamma, G., D'Apolito, M., Addabbo, F., Procino, G., Simonetti, M.C., Montini, G., Gesualdo, L., Debler, E.W., Svelto, M., and Valenti, G.

Abstract

Item does not contain fulltext, Here, we report the aquaporin 2 (AQP2) mutational analysis of a patient with nephrogenic diabetes insipidus heterozygote due to two novel missense mutations. Direct sequencing of DNA in the male patient revealed that he was compound heterozygote for two mutations in the AQP2 gene: a thymine-to-adenine transversion at position 450 (c.450T>A) in exon 2 and a guanine-to-thymine at nucleotide position 643 (c.643G>T) in exon 4. The double heterozygous 450T>A and 643G>T transversion causes the amino acid substitution D150E and G215C. Direct sequencing of exons 2 and 4 of the AQP2 gene from each of the parents revealed that the c.450T>A mutation was inherited from the father while the c.643G>T mutation was inherited from the mother. Analysis of AQP2 excretion demonstrated that no AQP2 was detectable in the urine of the proband, whereas normal AQP2 levels were measured in both parents. When expressed in renal cells, both proteins were retarded in the endoplasmic reticulum and no redistribution was observed after forskolin stimulation. Of note, homology modeling revealed that the two mutations involve two highly conserved residues providing important clues about the role of the wt residues in AQP2 stability and function.

Published
2007

30. Trafficking and phosphorylation dynamics of AQP4 in histamine-treated human gastric cells.

Author

Carmosino, M., Procino, G., Tamma, G., Mannucci, R., Svelto, M., Valenti, G., Carmosino, M., Procino, G., Tamma, G., Mannucci, R., Svelto, M., and Valenti, G.

Abstract

Item does not contain fulltext, BACKGROUND INFORMATION: AQP4 (aquaporin 4) internalization and a concomitant decrease in the osmotic water permeability coefficient (Pf) after histamine exposure has been reported in AQP4-transfected gastric HGT1 cells. RESULTS: In the present study we report that AQP4 internalization is followed by an increase in AQP4 phosphorylation. Histamine treatment for 30 min resulted in an approx. 10-fold increase in AQP4 phosphorylation that was inhibited by 1 microM H89, a specific PKA (protein kinase A) inhibitor, but not by PKC (protein kinase C) and CK2 inhibitors. Moreover, measurement of PKA activity after 30 min of histamine treatment showed that PKA activity was approx. 3-fold higher compared with basal conditions. AQP4 phosphorylation was prevented in cells treated with histamine for 30 min after pre-incubation with PAO (phenylarsine oxide), an inhibitor of protein endocytosis. Using an endo-exocytosis assay we showed that, after histamine washed out, internalized AQP4 recycled back to the cell surface, even in cells in which de novo protein synthesis was inhibited by cycloheximide. CONCLUSIONS: Phosphorylation experiments, combined with immunolocalization studies, indicated that AQP4 phosphorylation is mediated by PKA and occurs subsequently to its internalization in late endosomes. We suggest that phosphorylation might be a mechanism involved in retaining AQP4 in a vesicle-recycling compartment.

Published
2007

31. Water immersion is associated with an increase in aquaporin-2 excretion in healthy volunteers.

Author

Valenti, G., Fraszl, W., Addabbo, F., Tamma, G., Procino, G., Satta, E., Cirillo, M., Santo, N.G. De, Drummer, C., Bellini, L., Kowoll, R., Schlemmer, M., Vogler, S., Kirsch, K.A., Svelto, M., Gunga, H.C., Valenti, G., Fraszl, W., Addabbo, F., Tamma, G., Procino, G., Satta, E., Cirillo, M., Santo, N.G. De, Drummer, C., Bellini, L., Kowoll, R., Schlemmer, M., Vogler, S., Kirsch, K.A., Svelto, M., and Gunga, H.C.

Abstract

Contains fulltext : 51180.pdf (publisher's version ) (Closed access), Here, we report the alterations in renal water handling in healthy volunteers during a 6 h thermoneutral water immersion at 34 to 36 degrees C. We found that water immersion is associated with a reversible increase in total urinary AQP2 excretion.

Published
2006

32. Aquaporin-2 excretion and renal function during the 1st week of life in preterm newborn infants.

Author

Iacobelli, S., Addabbo, F., Bonsante, F., Procino, G., Tamma, G., Acito, A., Esposito, L., Svelto, M., Valenti, G., Iacobelli, S., Addabbo, F., Bonsante, F., Procino, G., Tamma, G., Acito, A., Esposito, L., Svelto, M., and Valenti, G.

Abstract

Contains fulltext : 50711.pdf (publisher's version ) (Closed access), In many preterm infants, a characteristic pattern of fluid and electrolyte homeostasis occurs during the 1st week of life, consisting of three phases: prediuretic, diuretic, and postdiuretic. In this study, we evaluated the possible role of aquaporin-2 (AQP2) in renal concentrating ability and correlated it with other markers of the renal function in healthy preterm infants. Daily urine and spot blood samples were collected from 9 healthy preterm (32 +/- 1 weeks) infants at postnatal ages 1, 3, and 7 days. Urine and serum osmolality, creatinine, electrolytes, and AQP2 excretion were measured. All infants showed a significant (about 7%) weight loss on day 3 associated with a more than threefold increase in urine output without a significant change in fluid intake (diuretic phase). The creatinine clearance increased on day 3, indicating an increase in glomerular filtration rate. Interestingly, on day 3, the level of total excreted AQP2 (pmol/h) was significantly higher when compared to day 1 and day 7, and the same tendency was observed for urine osmolality. To conclude, the observed increase in urine osmolality and creatinine clearance during the diuretic phase, paralleled by an increase in total AQP2 excretion, suggests that AQP2 can contribute to the urinary concentrating ability early in postnatal life.

Published
2006

34. Presence in frog urinary bladder of proteins immunologically related to the aquaporin-CHIP

Author

Giuseppe Calamita, Mg, Mola, and Svelto M

Subjects
Cell Membrane Permeability, Erythrocytes, Aquaporin 1, Immunoblotting, Urinary Bladder, Fluorescent Antibody Technique, Proteins, Rana esculenta, Blood Proteins, Aquaporins, Precipitin Tests, Ion Channels, Antigen-Antibody Reactions, Molecular Weight, Body Water, Antibody Specificity, Blood Group Antigens, Animals, Humans
Abstract

Aquaporin-CHIP, a 28 kDa channel forming protein already referred to as CHIP28, has been identified as the water channel in red blood cells as well as in mammalian renal tubule cells. Another member of the aquaporin family, WCH-CD, has been found in the apical membrane of collecting duct principal cells and may represent the ADH-sensitive water channel. The present study investigates the possible presence of CHIP28-like proteins in amphibian urinary bladder, where the presence of water channels has been postulated. For this purpose, we raised polyclonal antibodies against human erythrocyte CHIP28. Immune serum precipitated a protein of about 30 kDa from the whole homogenate of urinary epithelial cells. By Western blotting, in addition to the reaction with the 30 kDa component, the immune serum reacted with higher molecular weight components from the bladder homogenate. The 30 kDa band was detected by Western blot only in bladders having a high water permeability. Moreover, a 30 kDa protein was also recognized in frog red blood cell membranes by the anti-CHIP28 antibodies. In line with the immunoblotting studies, in immunohistofluorescence anti-CHIP28 antibodies stained frog red blood cells and urinary bladder epithelial cells. However, in whole tissue water permeability studies apical treatment with the anti-CHIP28 antibodies had no effect on either the hydrosmotic response to ADH or on the basal net water flow of the bladder. All together, these results indicate the presence in the frog red blood cells and urinary epithelium of proteins sharing immunological analogies with aquaporin-CHIP.

Published
1994

36. Water immersion is associated with an increase in aquaporin-2 excretion in healthy volunteers

Author

Valenti, G., primary, Fraszl, W., additional, Addabbo, F., additional, Tamma, G., additional, Procino, G., additional, Satta, E., additional, Cirillo, M., additional, De Santo, N.G., additional, Drummer, C., additional, Bellini, L., additional, Kowoll, R., additional, Schlemmer, M., additional, Vogler, S., additional, Kirsch, K.A., additional, Svelto, M., additional, and Gunga, H.C., additional

Published
2006
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41. Lovastatin-induced cholesterol depletion affects both apical sorting and endocytosis of aquaporin-2 in renal cells.

Author

Procino, G., Barbieri, C., Carmosino, M., Rizzo, F., Valenti, G., and Svelto, M.

Subjects
VASOPRESSIN, AQUAPORINS, RENAL cell carcinoma, CELL membranes, FORSKOLIN, ENDOCYTOSIS, PHYSIOLOGY
Abstract

Vasopressin causes the redistribution of the water channel aquaporin-2 (AQP2) from cytoplasmic storage vesicles to the apical plasma membrane of collecting duct principal cells, leading to urine concentration. The molecular mechanisms regulating the selective apical sorting of AQP2 are only partially uncovered. In this work, we investigate whether AQP2 sorting/trafficking is regulated by its association with membrane rafts. In both MCD4 cells and rat kidney, AQP2 preferentially associated with Lubrol WX-insoluble membranes regardless of its presence in the storage compartment or at the apical membrane. Block-andrelease experiments indicate that 1) AQP2 associates with detergentresistant membranes early in the biosynthetic pathway; 2) strong cholesterol depletion delays the exit of AQP2 from the trans-Golgi network. Interestingly, mild cholesterol depletion promoted a dramatic accumulation of AQP2 at the apical plasma membrane in MCD4 cells in the absence of forskolin stimulation. An internalization assay showed that AQP2 endocytosis was clearly reduced under this experimental condition. Taken together, these data suggest that association with membrane rafts may regulate both AQP2 apical sorting and endocytosis. [ABSTRACT FROM AUTHOR]

Published
2010
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42. Expression and functional analysis of water channels in a stably AQP2-transfected human collecting duct cell line.

Author

Valenti, G, Frigeri, A, Ronco, P M, D'Ettorre, C, and Svelto, M

Abstract

In this study, we describe the establishment of a stably transfected epithelial cell line with the cDNA for the rat aquaporin 2 (AQP2). To this end, we used a human cell line (HCD) derived from the cortical collecting duct and having characteristics of principal cells (Prié, D., Friedlander, G., Coureau, C., Vandewalle, A., Cassigena, R., and Ronco, P. M. (1995) Kidney Int. 47, 1310-1318). The HCD cells were first screened for the constitutive expression of AQPs. By Western blot analysis, we found a low expression of immunoreactive AQP2 and AQP4 proteins. In contrast, transfected cells (clone CD8) probed with AQP2 antiserum expressed an intense 29-kDa protein on immunoblot in addition to a broad band between 35-45 kDa corresponding to the glycosylated form of the protein, indicating that full maturity of the protein is attained in transfected cells. Immunofluorescence demonstrated that AQP2 was located in intracellular vesicles. After vasopressin stimulation, the staining redistributed from an intracellular site to the apical pole of the cells, an effect similar to that described on collecting duct principal cells in vivo (Sabolic, I., Katsura, T., Verbavatz, J. M., and Brown, D. (1995) J. Membr. Biol. 143, 165-175) and in perfused tubules (Nielsen, S., Chou, C. L., Marples, D., Christensen, E. I., Kishore, B. K., and Knepper, M. A. (1995) Proc. Natl. Acad. Sci. U. S. A. 92, 1013-1017). The redistribution of AQP2 in CD8 cells was accompanied by an approximately 6-fold increase in osmotic water permeability coefficient (Pf), which was inhibited by 0.3 m HgCl2. These data indicate that functional vasopressin-sensitive water channels are expressed in transfected cells. The stably transfected cells represent a suitable model to unravel by direct experimental approach the intracellular signals involved in the translocation of AQP2 to the apical plasma membrane in the presence of vasopressin.

Published
1996

43. Molecular basis of antihypertensive effect of bradikinin: functional involvement of renal aquaporins.

Author

VALENTI, G., TAMMA, G., CARMOSINO, M., and SVELTO, M.

Abstract

Bradykinin (BK) is one of the most important peptide regulating vascular tone, water, and ionic balance in the body, playing a key role in controlling blood pressure. Interestingly, patients with essential hypertension excrete less BK than do normotensive subjects. To elucidate the mechanism by which BK regulates renal water transport, AQP2-transfected collecting duct CD8 cells, expressing the BK receptor (BK2), were used as experimental model. In CD8 cells, BK pretreatment impaired forskolin-induced AQP2 translocation to the apical plasma membrane. To clarify the signal transduction cascade associated with this effect, we first investigated whether BK induced increase in citosolic calcium, via the G protein Gq known to be coupled to BK2 receptor. Spectrofluorometry employing fura-2-AM revealed that 100 nM BK elicited a significant increase in Cai (from 72.8 ± 7.4, to 310.7 ± 43.4 nM, n=6, P which was abolished by the receptor antagonist HOE-140. In renal cells, Gq coupled receptors may activate Rho and its downstream effectors. In CD8 cells it has been shown that forskolin-induced AQP2 translocation is associated with a decrease in Rho activity and depolymerization of F-actin which facilitates the translocation of AQP2 to the plasma membrane. Interestingly, BK treatment in CD8 cells resulted in a significant increase in Rho activity, as assessed by selective pull down experiments. In agreement with these data, BK induced a significant increase of F-actin content as assessed by actin polymerization assay and by immunofluorescence experiments. BK effects on actin assembly were abolished by the BK2 agonist HOE-140. We conclude that the diuretic effect of bradykinin may in part be explained by impairement of AQP2 translocation via activation of Rho and F-actin formation. [ABSTRACT FROM AUTHOR]

Published
2019

44. Activation of TYRO3/AXL tyrosine kinase receptors in thyroid cancer

Author

Gnana P. Krishnamoorthy, Valentina Guarino, Maria Svelto, Federica Liotti, Renato Franco, Rosa Marina Melillo, Carla Visciano, Elvira Avilla, Avilla, Elvira, Guarino, Valentina, Visciano, Carla, Liotti, Federica, Svelto, M., Krishnamoorthy, GNAMA PRAKASAM, Franco, R., Melillo, ROSA MARINA, Avilla, E, Guarino, V, Visciano, C, Liotti, F, Svelto, M, Krishnamoorthy, G, Franco, Renato, and Melillo, Rm

Subjects
Cancer Research, Gene Expression, Apoptosis, axl, Cell Separation, RECEPTOR TYROSINE KINASE, Receptor tyrosine kinase, chemistry.chemical_compound, Mice, thyroid cancer, Thyroid cancer, biology, Reverse Transcriptase Polymerase Chain Reaction, Flow Cytometry, Immunohistochemistry, Oncology, Intercellular Signaling Peptides and Proteins, RNA Interference, medicine.medical_specialty, Blotting, Western, Immunoblotting, Mice, Nude, Enzyme-Linked Immunosorbent Assay, Transfection, Internal medicine, Cell Line, Tumor, Proto-Oncogene Proteins, medicine, In Situ Nick-End Labeling, Animals, Humans, Immunoprecipitation, Thyroid Neoplasms, Autocrine signalling, Cell Proliferation, AXL receptor tyrosine kinase, GAS6, Gene Expression Profiling, Cancer, Receptor Protein-Tyrosine Kinases, Tyrosine phosphorylation, endocrine cancer, medicine.disease, Axl Receptor Tyrosine Kinase, Enzyme Activation, Endocrinology, chemistry, Cancer cell, tyro 3, biology.protein, Cancer research
Abstract

Thyroid cancer is the most common endocrine cancer, but its key oncogenic drivers remain undefined. In this study we identified the TYRO3 and AXL receptor tyrosine kinases as transcriptional targets of the chemokine CXCL12/SDF-1 in CXCR4-expressing thyroid cancer cells. Both receptors were constitutively expressed in thyroid cancer cell lines but not normal thyroid cells. AXL displayed high levels of tyrosine phosphorylation in most cancer cell lines due to constitutive expression of its ligand GAS6. In human thyroid carcinoma specimens, but not in normal thyroid tissues, AXL and GAS6 were often coexpressed. In cell lines expressing both receptors and ligand, blocking each receptor or ligand dramatically affected cell viability and decreased resistance to apoptotic stimuli. Stimulation of GAS6-negative cancer cells with GAS6 increased their proliferation and survival. Similarly, siRNA-mediated silencing of AXL inhibited cancer cell viability, invasiveness, and growth of tumor xenografts in nude mice. Our findings suggest that a TYRO3/AXL-GAS6 autocrine circuit sustains the malignant features of thyroid cancer cells and that targeting the circuit could offer a novel therapeutic approach in this cancer. Cancer Res; 71(5); 1792–804. ©2011 AACR.

Published
2011

45. AQP4-dependent glioma cell features affect the phenotype of surrounding cells via extracellular vesicles

Author

Laura Simone, Francesco Pisani, Elena Binda, Antonio Frigeri, Angelo L. Vescovi, Maria Svelto, Grazia P. Nicchia, Simone, L, Pisani, F, Binda, E, Frigeri, A, Vescovi, A, Svelto, M, and Nicchia, G

Subjects
Apoptosi, Tumour environment, AQP4, GBM, Migration, General Biochemistry, Genetics and Molecular Biology, EV
Abstract

Background Extracellular vesicles (EVs) are membrane-enclosed particles released systemically by all cells, including tumours. Tumour EVs have been shown to manipulate their local environments as well as distal targets to sustain the tumour in a variety of tumours, including glioblastoma (GBM). We have previously demonstrated the dual role of the glial water channel aquaporin-4 (AQP4) protein in glioma progression or suppression depending on its aggregation state. However, its possible role in communication mechanisms in the microenvironment of malignant gliomas remains to be unveiled. Results Here we show that in GBM cells AQP4 is released via EVs that are able to affect the GBM microenvironment. To explore this role, EVs derived from invasive GBM cells expressing AQP4-tetramers or apoptotic GBM cells expressing orthogonal arrays of particles (AQP4-OAPs) were isolated, using a differential ultracentrifugation method, and were added to pre-seeded GBM cells. Confocal microscopy analysis was used to visualize the interaction and uptake of AQP4-containing EVs by recipient cells. Chemoinvasion and Caspase3/7 activation assay, performed on recipient cells after EVs uptake, revealed that EVs produced by AQP4-tetramers expressing cells were able to drive surrounding tumour cells toward the migratory phenotype, whereas EVs produced by AQP4-OAPs expressing cells drive them toward the apoptosis pathway. Conclusion This study demonstrates that the different GBM cell phenotypes can be transferred by AQP4-containing EVs able to influence tumour cell fate toward invasiveness or apoptosis. This study opens a new perspective on the role of AQP4 in the brain tumour microenvironment associated with the EV-dependent communication mechanism. Graphical Abstract

Published
2022
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46. Transplantation of clinical-grade human neural stem cells reduces neuroinflammation, prolongs survival and delays disease progression in the SOD1 rats

Author

Maria Svelto, Alberto Visioli, Daniela Celeste Profico, Laura Cajola, Massimiliano Copetti, Letizia Mazzini, Francesca Pinos, Jessica Rosati, Cristina Zalfa, Elena Binda, Laura Rota Nodari, Paola Daniele, Alessandro De Luca, Lidia De Filippis, Marina Boido, Valentina Garlatti, Angelo L. Vescovi, Daniela Ferrari, Elena Vacchi, Maurizio Gelati, Alessandro Vercelli, Zalfa, C, Rota Nodari, L, Vacchi, E, Gelati, M, Profico, D, Boido, M, Binda, E, De Filippis, L, Copetti, M, Garlatti, V, Daniele, P, Rosati, J, De Luca, A, Pinos, F, Cajola, L, Visioli, A, Mazzini, L, Vercelli, A, Svelto, M, Vescovi, A, and Ferrari, D

Subjects
Male, 0301 basic medicine, Cancer Research, Pathology, medicine.medical_specialty, Cell Survival, Neurogenesis, medicine.medical_treatment, Immunology, SOD1, Kaplan-Meier Estimate, hNSCs transplantation Amyotrophic Lateral Sclerosis, transgenic animal model, terapeutic mechanisms of stem cells, differentiation mechanisms of stem cells, neural stem cells, SOD1, mechanisms of ALS progression, neuroinflammation mechanisms, Article, Rats, Sprague-Dawley, 03 medical and health sciences, Cellular and Molecular Neuroscience, 0302 clinical medicine, Animals, Humans, Medicine, lcsh:QH573-671, Amyotrophic lateral sclerosis, Neuroinflammation, Inflammation, Motor Neurons, Neural stem cells, Superoxide Dismutase, lcsh:Cytology, business.industry, Amyotrophic Lateral Sclerosis, BIO/13 - BIOLOGIA APPLICATA, Cell Differentiation, Immunosuppression, Cell Biology, medicine.disease, Neural stem cell, Rats, Transplantation, Disease Models, Animal, 030104 developmental biology, Spinal Cord, Disease Progression, Female, Microglia, Rats, Transgenic, Stem cell, business, 030217 neurology & neurosurgery
Abstract

Stem cells are emerging as a therapeutic option for incurable diseases, such as Amyotrophic Lateral Sclerosis (ALS). However, critical issues are related to their origin as well as to the need to deepen our knowledge of the therapeutic actions exerted by these cells. Here, we investigate the therapeutic potential of clinical-grade human neural stem cells (hNSCs) that have been successfully used in a recently concluded phase I clinical trial for ALS patients (NCT01640067). The hNSCs were transplanted bilaterally into the anterior horns of the lumbar spinal cord (four grafts each, segments L3–L4) of superoxide dismutase 1 G93A transgenic rats (SOD1 rats) at the symptomatic stage. Controls included untreated SOD1 rats (CTRL) and those treated with HBSS (HBSS). Motor symptoms and histological hallmarks of the disease were evaluated at three progressive time points: 15 and 40 days after transplant (DAT), and end stage. Animals were treated by transient immunosuppression (for 15 days, starting at time of transplantation). Under these conditions, hNSCs integrated extensively within the cord, differentiated into neural phenotypes and migrated rostro-caudally, up to 3.77 ± 0.63 cm from the injection site. The transplanted cells delayed decreases in body weight and deterioration of motor performance in the SOD1 rats. At 40DAT, the anterior horns at L3–L4 revealed a higher density of motoneurons and fewer activated astroglial and microglial cells. Accordingly, the overall survival of transplanted rats was significantly enhanced with no rejection of hNSCs observed. We demonstrated that the beneficial effects observed after stem cell transplantation arises from multiple events that counteract several aspects of the disease, a crucial feature for multifactorial diseases, such as ALS. The combination of therapeutic approaches that target different pathogenic mechanisms of the disorder, including pharmacology, molecular therapy and cell transplantation, will increase the chances of a clinically successful therapy for ALS.

Published
2019
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47. p53 Is a Master Regulator of Proteostasis in SMARCB1-Deficient Malignant Rhabdoid Tumors

Author

Giulio Draetta, Alessandro Sgambato, Prasenjit Dey, Federica Carbone, Melinda Soeung, Sara Loponte, Jose A. Karam, Rosalba Minelli, Nizar M. Tannir, Timothy P. Heffernan, Luigi Sapio, Dolores Lopez-Terrada, Alexander J. Lazar, Ziheng Chen, Alessandro Carugo, Andrea Viale, James Tepper, Priya Rao, Gabriel G. Malouf, Sara Lovisa, Xiaoping Su, Liren Li, Maria Svelto, Edoardo Del Poggetto, Cheryl Walker, Anirban Maitra, Frederick S. Robinson, Dinesh Rakheja, Charles W. M. Roberts, Sanjana Srinivasan, Giannicola Genovese, Samirkumar B. Amin, Francesca Puca, Durga Nand Tripathi, Pavlos Msaouel, George J. Netto, Carugo, A, Minelli, R, Sapio, L, Soeung, M, Carbone, F, Robinson, F, Tepper, J, Chen, Z, Lovisa, S, Svelto, M, Amin, S, Srinivasan, S, Del Poggetto, E, Loponte, S, Puca, F, Dey, P, Malouf, Gg, Su, X, Li, L, Lopez-Terrada, D, Rakheja, D, Lazar, Aj, Netto, Gj, Rao, P, Sgambato, A, Maitra, A, Tripathi, Dn, Walker, Cl, Karam, Ja, Heffernan, Tp, Viale, A, Roberts, Cwm, Msaouel, P, Tannir, Nm, Draetta, Gf, and Genovese, G.

Subjects
0301 basic medicine, p53, Male, Cancer Research, SMARCB1, MYC, medicine.disease_cause, 0302 clinical medicine, Tumor Cells, Cultured, Regulation of gene expression, Mice, Knockout, BIRC5, renal medullary carcinoma, SMARCB1 Protein, Endoplasmic Reticulum Stress, Gene Expression Regulation, Neoplastic, Oncology, 030220 oncology & carcinogenesis, Cancer Therapy, Female, Signal transduction, ER stress, Signal Transduction, autophagy, Mice, 129 Strain, MRT, rhabdoid tumors, proteasome inhibitors, Antineoplastic Agents, Biology, Article, Chromatin remodeling, embryonic mosaic GEM models, Proto-Oncogene Proteins c-myc, 03 medical and health sciences, Settore MED/04 - PATOLOGIA GENERALE, Cell Line, Tumor, medicine, Animals, Humans, Cyclin-Dependent Kinase Inhibitor p16, Rhabdoid Tumor, Autophagy, Mice, Inbred C57BL, 030104 developmental biology, Proteostasis, Unfolded protein response, Cancer research, Unfolded Protein Response, Tumor Suppressor Protein p53, Carcinogenesis
Abstract

Alterations in chromatin remodeling genes have been increasingly implicated in human oncogenesis. Specifically, the biallelic inactivation of the SWI/SNF subunit SMARCB1 results in the emergence of extremely aggressive pediatric malignancies. Here, we developed embryonic mosaic mouse models of malignant rhabdoid tumors (MRT) that faithfully recapitulate the clinical-pathological features of the human disease. We demonstrated that SMARCB1-deficient malignancies exhibit dramatic activation of the unfolded protein response (UPR) and endoplasmic reticulum (ER) stress response via genetically intact MYC-p19(ARF)-p53 axis. As a consequence, these tumors display an exquisite sensitivity to agents inducing proteotoxic stress and inhibition of the autophagic machinery. In conclusion, our findings provide rationale for drug repositioning trials investigating combinations of agents targeting the UPR and autophagy in SMARCB1-deficient MRT.

Published
2019

48. AQP4 Aggregation State Is a Determinant for Glioma Cell Fate

Author

Lucia Micale, Antonio Frigeri, Maria Grazia Mola, Manuela De Bellis, Angelo L. Vescovi, Giuseppe Merla, Laura Simone, Grazia Paola Nicchia, Maria Svelto, Francesco Pisani, Simone, L, Pisani, F, Mola, Mg, De Bellis, M, Merla, G, Micale, L, Frigeri, A, Vescovi, Al, Svelto, M, Nicchia, Gp, Mola, M, Vescovi, A, and Nicchia, G

Subjects
0301 basic medicine, Gene isoform, Cancer Research, Protein Conformation, 03 medical and health sciences, Mice, 0302 clinical medicine, Glioma, medicine, Tumor Cells, Cultured, Animals, Humans, Cytoskeleton, Cell Shape, Cell Proliferation, Aquaporin 4, Mice, Knockout, Chemistry, Cell growth, Animal, Cell Membrane, BIO/13 - BIOLOGIA APPLICATA, Cell migration, Actin cytoskeleton, medicine.disease, Rats, Cell biology, 030104 developmental biology, Oncology, Apoptosis, 030220 oncology & carcinogenesis, Rat, sense organs, Protein Multimerization, Human
Abstract

The glial water channel protein aquaporin-4 (AQP4) forms heterotetramers in the plasma membrane made of the M23-AQP4 and M1-AQP4 isoforms. The isoform ratio controls AQP4 aggregation into supramolecular structures called orthogonal arrays of particles (AQP4-OAP). The role of AQP4 aggregation into OAP in malignant gliomas is still unclear. In this study, we demonstrate that AQP4 aggregation/disaggregation into OAP influences the biology of glioma cells. Selective expression of the OAP-forming isoform M23-AQP4 (AQP4-OAP) triggered cell shape changes in glioma cells associated with alterations to the F-actin cytoskeleton that affected apoptosis. By contrast, expression of M1-AQP4 (AQP4-tetramers), which is unable to aggregate into OAP, ameliorated glioma cell invasiveness, improved cell migration, and increased methalloproteinase-9 activity. Two prolines (254 and 296) at the C-terminus tail were shown to be important in mediating the relationship between the actin cytoskeleton and AQP4-OAP and AQP4-tetramers. In conclusion, this study demonstrates that AQP4 aggregation state might be an important determinant in orienting glioma cells to persist or perish. AQP4 disaggregation may potentiate invasiveness potential, whereas AQP4 aggregation may activate the apoptotic path. This study shows a new perspective on the role of AQP4 in brain tumors not necessarily associated with edema formation but with AQP4 aggregation/disaggregation dynamics and their link with the actin cytoskeleton. Significance: This study demonstrates how AQP4 aggregation influences plasma membrane dynamics to alter cell proliferation, invasiveness, migration, and apoptotic potential in glioma cells.

Published
2019

49. D184E mutation in aquaporin-4 gene impairs water permeability and links to deafness

Author

Ilenia Giangreco, Antonio Frigeri, Grazia Paola Nicchia, Angelo Carotti, Orazio Nicolotti, Xavier Estivill, Romina Ficarella, Andrea Rossi, Maria Svelto, Paolo Gasparini, Francesco Pisani, Nicchia, G. P., Ficarella, R., Rossi, A., Giangreco, I., Nicolotti, O., Carotti, A., Pisani, Francesco, Estivill, X., Gasparini, P., Svelto, M., and Frigeri, A.

Subjects
Blotting, Western, DNA Mutational Analysis, Molecular Sequence Data, Xenopus, Fluorescent Antibody Technique, Aquaporin, Deafness, Biology, Aquaporins, medicine.disease_cause, Polymerase Chain Reaction, Permeability, Protein Structure, Secondary, D184E, Xenopus laevis, Mutant protein, medicine, Animals, Humans, Missense mutation, Amino Acid Sequence, Deafne, Water transport, Aquaporin 4, chemistry.chemical_classification, Mutation, Neuroscience (all), Base Sequence, General Neuroscience, Water, OAPS, biology.organism_classification, AQP4, Molecular biology, Amino acid, Cell biology, chemistry, Mutagenesis, Site-Directed, Electrophoresis, Polyacrylamide Gel
Abstract

Aquaporins (AQPs) play a physiological role in several organs and tissues, and their alteration is associated with disorders of water regulation. The identification of molecular interactions, which are crucial in determining the rate of water flux through the channel, is of pivotal role for the discovery of molecules able to target those interactions and therefore to be used for pathologies ascribable to an altered AQP-dependent water balance. In the present study, a mutational screening of human aquaporin-4 (AQP4) gene was performed on subjects with variable degrees of hearing loss. One heterozygous missense mutation was identified in a Spanish sporadic case, leading to an Asp/Glu amino acid substitution at position 184 (D184E). A BLAST analysis revealed that the amino acid D184 is conserved across species, consistently with a crucial role in the structure/function of AQP4 water channels. The mutation induces a significant reduction in water permeability as measured by the Xenopus laevis oocytes swelling assay and by the use of mammalian cells by total internal reflection microscopy. By Western blot, immunofluorescence and 2D Blue Native/SDS-PAGE we show that the reduction in water permeability is not ascribable to a reduced expression of AQP4 mutant protein or to its incorrect plasma membrane targeting and aggregation into orthogonal arrays of particles. Molecular dynamics simulation provided a molecular explanation of the mechanism whereby the mutation induces a loss of function of the channel. Substituting glutamate for aspartate affects the mobility of the D loop, which acquires a higher propensity to equilibrate in a “closed conformation”, thus affecting the rate of water flux. We speculate that this mutation, combined with other genetic defects or concurrently with certain environmental stimuli, could confer a higher susceptibility to deafness.

Published
2011
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50. A decrease in aquaporin 2 excretion is associated with bed rest induced high calciuria

Author

Maria Svelto, Pierpaolo Cavallo, Massimo Cirillo, Giancarlo Bilancio, Rado Pišot, Natale G. De Santo, Giovanna Valenti, Annarita Di Mise, Grazia Tamma, Marianna Ranieri, Tamma, G, Di Mise, A, Ranieri, M, Svelto, M, Pisot, R, Bilancio, Giancarlo, Cavallo, Pierpaolo, De Santo, Ng, Cirillo, Massimo, and Valenti, G.

Subjects
Adult, medicine.medical_specialty, medicine.medical_treatment, Urinary system, Hypercalciuria, chemistry.chemical_element, Enzyme-Linked Immunosorbent Assay, bed rest, Hematocrit, Calcium, calciuria, Bed rest, General Biochemistry, Genetics and Molecular Biology, Excretion, Reference Values, Internal medicine, medicine, Humans, microravity, Medicine(all), Aquaporin 2, medicine.diagnostic_test, Biochemistry, Genetics and Molecular Biology(all), Chemistry, Reabsorption, Research, General Medicine, medicine.disease, Urinary calcium, aquaporin, Endocrinology, Microgravity, Aquaporin-2
Abstract

Background: Exposure to microgravity or immobilization results in alterations of renal function, fluid redistribution and bone loss, which couples to a rise of urinary calcium excretion. We recently demonstrated that high calcium delivery to the collecting duct reduces local Aquaporin-2 (AQP2) mediated water reabsorption under vasopressin action, thus limiting the maximal urinary concentration and reducing calcium saturation. To investigate renal water balance adaptation during bed rest, a model to mimic the effects of microgravity on earth, the effect of changes in urinary calcium on urinary AQP2 excretion were assessed. Methods: Ten healthy men (aged 21-28 years) participated in the experiment. Study design included 7 days of adaptation and 35 days of continuous bed rest (days -6 to 0 and 1 to 35, respectively) under controlled diet. Food records and 24-hour urine samples were collected daily from day -3 to 35. Changes in blood hematocrit were used as an indirect index of plasma volume changes. AQP2 excretion was measured by ELISA. Results: Bed rest induced bone demineralization and a transient increase in urinary calcium followed by transient decrease in AQP2 excretion, which can reduce the urine concentrating ability causing plasma volume reduction. The return of calciuria to baseline was followed by a recovery of AQP2 excretion, which allows for a partial restoration of plasma volume. Conclusions: These results further support the view that urinary calcium can modulate the vasopressin-dependent urine concentration through a down-regulation of AQP2 expression/trafficking. This mechanism could have a key role in the prevention of urine super-saturation due to hypercalciuria.

Published
2014

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