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7. Performance and impacts of managed aquifer recharge interventions for agricultural water security: A framework for evaluation

Author

G. Tamma Rao, Sanmugan Prathapar, S Dhar, and Basant L Maheshwari

Subjects
Irrigation, Watershed, Psychological intervention, Soil Science, Groundwater recharge, language.human_language, Geography, Crop production, Tamil, Farm water, language, Water resource management, Agronomy and Crop Science, Earth-Surface Processes, Water Science and Technology
Abstract

To minimize and counter decline of groundwater levels and improve the availability of water for crop production, Managed Aquifer Recharge (MAR) interventions are widely adopted across India, often initiated or supported by, local communities, state and central governments to improve the availability of water for irrigation. While the literature on MAR in India is vast, the science of their construction is lacking. Furthermore, there is an absence of a structured approach to evaluate the performance and impact of MAR interventions. Often, performance and impacts of MAR have been commented upon together, without distinguishing the two. In this article, we aim to propose that performance and impact are different from each other, and that the evaluation of MAR interventions should take into account such differences between them. A framework for performance and impact analysis, based on three levels, viz. primary, secondary and tertiary, is outlined. It is then applied to seven selected MAR interventions in India, Adarsha watershed – Andhra Pradesh, Gokulpura-Goverdhanpura watershed – Rajasthan, Kodangipalayam watershed – Tamil Nadu, Chikalgaon watershed – Maharashtra, Rajasamadhiyala watershed – Gujarat, Satlasana watershed – Gujarat and Sujalam Sufalam Yojana – Gujarat. Although, the evaluations of these case studies reported were not categorized into performance and impact, most of them have addressed both. However, none of them could explicitly demonstrate that reported impacts were uniquely related to MAR interventions. If impacts are used as a surrogate for performance, it must be shown that impacts are uniquely linked to MAR interventions.

Published
2015
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8. Assessment of geochemical processes occurring in groundwaters in the coastal alluvial aquifer

Author

J. Mahesh, L. Surinaidu, G. Tamma Rao, B. Mangaraja Rao, S. T. Mallikharjuna Rao, and V. V. S. Gurunadha Rao

Subjects
Hydrology, Delta, geography, Nitrates, geography.geographical_feature_category, India, Aquifer, General Medicine, Sodium Chloride, Management, Monitoring, Policy and Law, Pollution, Environmental monitoring, Seawater, Alluvium, Seasons, Groundwater, Bay, Water Pollutants, Chemical, Geology, Environmental Monitoring, General Environmental Science, Water well
Abstract

Groundwater samples are collected from 30 observation wells in the study area to analyze the hydrochemical quality for determining the seawater encroachment in the part of Central Godavari Delta, Bay of Bengal, India. In order to establish the baseline hydrochemical conditions and processes determining the groundwater quality, an integrated investigation coupled with multivariate statistical analysis and hydrochemical methods are used to identify and interpret the groundwater chemistry of the aquifer system. The major land use is irrigated agriculture and aquaculture in the study area. The ground waters affected by the seawater intrusion featured high levels of sodium (Na(+)), chloride (Ca(+)), and TDS, which are the simplest common indicators for seawater influence. The elevated levels of NO3-N at some monitoring wells indicate nitrate pollution of groundwater due to anthropogenic origin such as septic effluents or chemical fertilizers. Besides the major chemical compositions, it was also demonstrated that ionic ratios would be useful to delineate seawater intrusion and they include Na(+)/Ca(2+), Mg(2+)/Ca(2+), SO4 (2-)/Ca(2+), Na(+)/(Na(+) + Cl(-)), and Ca(-)/sum of anions. This paper demonstrates the variations in hydrochemical quality of groundwater and its evolution processes in two different seasons in the coastal aquifer alluvial settings.

Published
2013
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9. Assessment of trace element contamination in soils around Chinnaeru River Basin, Nalgonda District, India

Author

G. Loukya, G. Machender, G. Tamma Rao, Ratnakar Dhakate, and M. N. Reddy

Subjects
Pollution, Global and Planetary Change, Soil test, media_common.quotation_subject, Aquatic ecosystem, Trace element, Soil Science, Geology, Contamination, Environmental chemistry, Soil water, Environmental Chemistry, Enrichment factor, Groundwater, Earth-Surface Processes, Water Science and Technology, media_common
Abstract

Concentrations of trace elements such as As, Ba, Co, Cr, Cu, Ni, Pb, Rb, Sr, V, Y, Zn and Zr were studied in soils to understand metal contamination due to agriculture and geogenic activities in Chinnaeru River Basin, Nalgonda District, India. This area is affected by the geogenic fluoride contamination. The contamination of the soils was assessed on the basis of geoaccumulation index, enrichment factor (EF), contamination factor and degree of contamination. Forty-four soil samples were collected from the agricultural field from the study area from top 10–50 cm layer of soil. Soil samples were analyzed for trace elements using X-ray fluorescence spectrometer. Data revealed that soils in the study area are significantly contaminated, showing high level of toxic elements than normal distribution. The ranges of concentration of Ba (370–1,710 mg/kg), Cr (8.7–543 mg/kg), Cu (7.7–96.6 mg/kg), Ni (5.4–168 mg/kg), Rb (29.6–223 mg/kg), Sr (134–438 mg/kg), Zr (141.2–8,232 mg/kg) and Zn (29–478 mg/kg). The concentration of other elements was similar to the levels in the earth’s crust or pointed to metal depletion in the soil (EF

Published
2012
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10. Remote sensing and GIS based comparative morphometric study of two sub-watershed of different physiographic conditions, West Godavari District, A.P

Author

V. V. S. Gurunadha Rao, G. Tamma Rao, Ratnakar Dakate, S. T. Mallikharjuna Rao, and B. M. Raja Rao

Subjects
Hydrology, education.field_of_study, Watershed, Hydrogeology, Population, Geology, STREAMS, Remote sensing (archaeology), Drainage, education, Surface water, Drainage density, Remote sensing
Abstract

In this present study, Remote Sensing (RS) and Geographical Information System (GIS) techniques were used to update drainage and surface water bodies and to evaluate linear, relief and aerial morphometric parameters of the two sub-watersheds viz. Jilugumilli and Regulapadu in the northern part of West Godavari District, Andhra Pradesh. The area of Jilugumilli and Regulapadu watersheds spread over about 110 & 80 sq. km respectively. The morphometric analysis of the drainage networks of Regulapadu and Jilugumilli sub-watersheds exhibit sub-dendritic and sub parallel drainage pattern. The variation in stream length ratio changes due to change in slope and topography. It was inferred from the study that the streams are in a mature stage in Regulapadu and Jilugumilli watersheds, which indicated the geomorphic development. The variations in bifurcation ratio values among the sub-watersheds are described with respect to topography and geometric development. The stream frequencies for both sub-watersheds exhibit positive correlation with the drainage density, indicating increase in stream population with respect to increase in drainage density. The Jilugumilli watershed has a coarse drainage texture and Regulapadu sub-watershed is a fine drainage texture in nature. In the present study an attempt has been made to analyse the morphometric analysis of two sub-watersheds under different physiographic conditions. Morphometric analysis is one of the essential analyses required for development and management of watershed.

Published
2012
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11. Study of hydrogeochemical processes of the groundwater in Ghatprabha river sub-basin, Bagalkot District, Karnataka, India

Author

Y. Srinivasa Rao, V. V. S. Gurunadha Rao, G. Tamma Rao, and G. Ramesh

Subjects
Hydrology, geography, geography.geographical_feature_category, Archean, Sediment, Aquifer, Weathering, Structural basin, Silicate, chemistry.chemical_compound, chemistry, Evapotranspiration, General Earth and Planetary Sciences, Geology, Groundwater, General Environmental Science
Abstract

The alluvial aquifer of the Ghatprabha River comprises shallow tertiary sediment deposits underlain by peninsular gneissic complex of Archean age, located in the central–eastern part of the Karnataka in southern India. In order to establish the baseline hydrochemical conditions and processes determining the groundwater quality, groundwater samples were collected as part of an integrated investigation that coupled multivariate statistical analysis with hydrochemical methods to identify and interpret the groundwater chemistry of the aquifer system. Three main hydrochemical types (Ca–Mg–Cl, Ca–Mg–HCO3, and Na–SO4) were identified. Gibbs plots indicate that the evolution of water chemistry is influenced by water–rock interaction followed by evapotranspiration process. The results of factor analysis indicated the total variance explained by the extracted factor 79.9% and 87.1% for both pre- and post-monsoon, respectively. And other processes such as silicate weathering, ion exchange, and local anthropogenic activities affect the groundwater chemistry.

Published
2012
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12. Application of numerical modeling for groundwater flow and contaminant transport analysis in the basaltic terrain, Bagalkot, India

Author

J. Mahesh, G. Padalu, L. Surinaidu, V. V. S. Gurunadha Rao, and G. Tamma Rao

Subjects
Hydrology, geography, geography.geographical_feature_category, Hydrogeology, Groundwater flow, Aquifer, Groundwater pollution, General Earth and Planetary Sciences, Groundwater discharge, Groundwater model, Groundwater, Phreatic, Geology, General Environmental Science
Abstract

A three-dimensional steady-state finite difference groundwater flow model is used to quantify the groundwa- ter fluxes and analyze the subsurface hydrodynamics in the basaltic terrain by giving particular emphasis to the well field that supplies domestic, agricultural, and industrial needs. The alluvial aquifer of the Ghatprabha River comprises shallow tertiary sediment deposits underlain by peninsular gneissic complex of Archean age, located in the central-eastern part of the Karnataka in southern India. Integrated hydrochemical, geophysical, and hydrogeological investigations have been helped in the conceptualization of groundwater flow model. Hydrochemical study has revealed that groundwater chemistry mainly controlled by silicate weathering in the study area. Higher concentration of TDS and NO3-N are observed, due to domestic, agriculture, and local anthropogenic activities are directed into the ground- water, which would have increased the concentration of the ions in the water. Groundwater flow model is calibrated using head observations from 23 wells. The calibrated model is used to forecast groundwater flow pattern, and anthropo- genic contamination migration under different scenarios. The result indicates that the groundwater flows regionally towards the south of catchment area and the migration of contamination would be reached in the nearby well field in less than 10 years time. The findings of these studies are of strong relevance to addressing the groundwater pollution due to indiscriminate disposal practices of hazardous waste in areas located within the phreatic aquifer. This study has laid the foundation for developing detailed predictive groundwa- ter model, which can be readily used for groundwater management practices.

Published
2011
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13. Characterization of two novel missense mutations in the AQP2 gene causing NDI

Author

IOLASCON, ACHILLE, V. Aglio, G. Tamma, M. D’Apolito, F. Addabbo, G. Procino, MC Simonetti, G. Montini, L. Gesualdo, E.W. Debler, M. Svelto, G. Valenti, Iolascon, Achille, V., Aglio, G., Tamma, M., D’Apolito, F., Addabbo, G., Procino, Mc, Simonetti, G., Montini, L., Gesualdo, Debler, E. W., M., Svelto, and G., Valenti

Subjects
aquaporin, diabetes insipidus
Published
2007

16. Ht31: the first protein kinase A anchoring protein to integrate protein kinase A and Rho signaling

Author

E, Klussmann, B, Edemir, B, Pepperle, G, Tamma, V, Henn, E, Klauschenz, C, Hundsrucker, K, Maric, and W, Rosenthal

Subjects
Oncogene Proteins, Chromosomes, Human, Pair 15, Kidney Medulla, Molecular Sequence Data, A Kinase Anchor Proteins, Cyclic AMP-Dependent Protein Kinases, Rats, Minor Histocompatibility Antigens, Proto-Oncogene Proteins, Animals, Guanine Nucleotide Exchange Factors, Humans, Amino Acid Sequence, Cloning, Molecular, rhoA GTP-Binding Protein, Cells, Cultured, Adaptor Proteins, Signal Transducing, HeLa Cells, Signal Transduction
Abstract

In an attempt to isolate protein kinase A anchoring proteins (AKAPs) involved in vasopressin-mediated water reabsorbtion, the complete sequence of the human AKAP Ht31 was determined and a partial cDNA of its rat orthologue (Rt31) was cloned. The Ht31 cDNA includes the estrogen receptor cofactor Brx and the RhoA GDP/GTP exchange factor proto-lymphoid blast crisis (Lbc) sequences. The Ht31 gene was assigned to chromosome 15 (region q24-q25). It encodes Ht31 and the smaller splice variants Brx and proto-Lbc. A protein of the predicted size of Ht31 (309 kDa) was detected in human mammary carcinoma and HeLa cells. Anti-Ht31/Rt31 antibodies immunoprecipitated RhoA from primary cultured rat renal inner medullary collecting duct cells, indicating an interaction between the AKAP and RhoA in vivo. These results suggest that Ht31/Rt31 represent a new type of AKAP, containing both an anchoring and a catalytic domain, which appears to be capable of modulating the activity of an interacting partner. Ht31/Rt31 have the potential to integrate Rho and protein kinase A signaling pathways, and thus, are prime candidates to regulate vasopressin-mediated water reabsorbtion.

Published
2001

19. Hydrochemical assessment of groundwater in alluvial aquifer region, Jalandhar District, Punjab, India.

Author

G, Tamma, Y, Srinivasa, J, Mahesh, L, Surinaidu, Dhakate, Ratnakar, V. V. S, Gurunadha, and M, Durga

Subjects
WATER chemistry, GROUNDWATER analysis, ALLUVIUM, AQUIFERS
Abstract

Hydrogeochemical investigations have been carried out in the Jalandhar District, Punjab, India to decipher hydrochemistry and groundwater quality for its suitability for drinking and irrigation purposes. Most of the irrigation practices depend on shallow or deeper tube wells as an alternative source to the surface water, and consequently rapid decline of the groundwater levels. Based on sodium absorption ratio, %sodium, chloro-alkaline indices are CAI-I, CAI-II and Permeability Index results, most of the groundwater samples collected in the study area were good for drinking and irrigation purposes. The hydrochemical facies suggested that the fluids interacted with carbonate minerals and have not been significantly altered by cation exchange, dissolution of evaporates, and/or mixing with more evolved waters. The analysis of Gibbs plot indicated the groundwater chemistry controlled by weathering process of silicate minerals. The aim of the study was to assess the spatial distribution of hydrogeochemical parameters and to determine controlling factor of geochemical process of the water composition based on the major ion chemistry of 44 groundwater samples collected in the study area. [ABSTRACT FROM AUTHOR]

Published
2015
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20. MOMAST ® Downregulates AQP3 Expression and Function in Human Colon Cells.

Author

Angelini I, Centrone M, Caponio GR, Di Mise A, Gerbino A, Ranieri M, Valenti G, and Tamma G

Abstract

The water channel AQP3 is an aquaglyceroporin expressed in villus epithelial cells, and it plays a role in water transport across human colonic surface cells. Beyond water, AQP3 can mediate glycerol and H 2 O 2 transport. Abnormal expression and function of AQP3 have been found in various diseases often characterized by altered cell growth and proliferation. Here, the beneficial effects of MOMAST ® have been evaluated. MOMAST ® is an antioxidant-patented natural phenolic complex obtained from olive wastewater (OWW) of the Coratina cultivar. Treatment of human colon HCT8 cells with MOMAST ® reduced cell viability. Confocal studies and Western Blotting analysis demonstrated that treatment with MOMAST ® significantly decreased the staining and the expression of AQP3. Importantly, functional studies revealed that the reduction of AQP3 abundance correlates with a significant decrease in glycerol and H 2 O 2 uptake. Indeed, the H 2 O 2 transport was partially but significantly reduced in the presence of MOMAST ® or DFP00173, a selective inhibitor of AQP3. In addition, the MOMAST ® -induced AQP3 decrease was associated with reduced epithelial-mesenchymal transition (EMT)-related proteins such as vimentin and β-catenin. Together, these findings propose MOMAST ® as a potential adjuvant in colon diseases associated with abnormal cell growth by targeting AQP3.

Published
2024
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21. RhoB plays a central role in hyperosmolarity-induced cell shrinkage in renal cells.

Author

Centrone M, Saltarella I, D'Agostino M, Ranieri M, Venneri M, Di Mise A, Simone L, Pisani F, Valenti G, Frassanito MA, and Tamma G

Subjects
Humans, Kidney cytology, Kidney metabolism, Kidney drug effects, Cell Line, Osmolar Concentration, Animals, Green Fluorescent Proteins metabolism, Green Fluorescent Proteins genetics, Apoptosis drug effects, Transfection, rhoB GTP-Binding Protein metabolism, rhoB GTP-Binding Protein genetics, Cell Size drug effects
Abstract

The small Rho GTP-binding proteins are important cell morphology, function, and apoptosis regulators. Unlike other Rho proteins, RhoB can be subjected to either geranylgeranylation (RhoB-GG) or farnesylation (RhoB-F), making that the only target of the farnesyltransferase inhibitor (FTI). Fluorescence resonance energy transfer experiments revealed that RhoB is activated by hyperosmolarity. By contrast, hyposmolarity did not affect RhoB activity. Interestingly, treatment with farnesyltransferase inhibitor-277 (FTI-277) decreased the cell size. To evaluate whether RhoB plays a role in volume reduction, renal collecting duct MCD4 cells and Human Kidney, HK-2 were transiently transfected with RhoB-wildtype-Enhance Green Fluorescence Protein (RhoB-wt-EGFP) and RhoB-CLLL-EGFP which cannot undergo farnesylation. A calcein-based fluorescent assay revealed that hyperosmolarity caused a significant reduction of cell volume in mock and RhoB-wt-EGFP-expressing cells. By contrast, cells treated with FTI-277 or expressing the RhoB-CLLL-EGFP mutant did not properly respond to hyperosmolarity with respect to mock and RhoB-wt-EGFP expressing cells. These findings were further confirmed by 3D-LSCM showing that RhoB-CLLL-EGFP cells displayed a significant reduction in cell size compared to cells expressing RhoB-wt-EGFP. Moreover, flow cytometry analysis revealed that RhoB-CLLL-EGFP expressing cells as well as FTI-277-treated cells showed a significant increase in cell apoptosis. Together, these data suggested that: (i) RhoB is sensitive to hyperosmolarity and not to hyposmolarity; (ii) inhibition of RhoB farnesylation associates with an increase in cell apoptosis, likely suggesting that RhoB might be a paramount player controlling apoptosis by interfering with responses to cell volume change., (© 2024 Wiley Periodicals LLC.)

Published
2024
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22. Nutritional, antioxidant and biological activity characterization of orange peel flour to produce nutraceutical gluten-free muffins.

Author

Caponio GR, Annunziato A, Vacca M, Difonzo G, Celano G, Minervini F, Ranieri M, Valenti G, Tamma G, and De Angelis M

Subjects
Humans, Celiac Disease diet therapy, Bread analysis, Dietary Supplements, Cell Line, Tumor, Nutritive Value, Fruit chemistry, Cell Survival drug effects, Citrus sinensis chemistry, Antioxidants pharmacology, Diet, Gluten-Free, Fermentation, Flour analysis
Abstract

Celiac disease - a prevalent food intolerance - requires strict adherence to a lifelong gluten-free (GF) diet as the only effective treatment. However, GF products often lack soluble fibre and have a high glycaemic index. Consequently, there is a pressing need in the food industry to develop GF products with improved nutritional profiles. In this context, the impact of incorporating orange peel flour (OPF) into muffins undergoing sourdough fermentation was examined, focusing on their technological, antioxidant, and nutritional characteristics. The functional properties of OPF were investigated using human colon carcinoma HCT8 cells as a model system. Treatment with OPF extract demonstrated a notable reduction in malignant cell viability and intracellular ROS levels, indicating potent antioxidant capabilities. Western blot analysis revealed significant alterations in key signalling pathways, including increased phosphorylation of NF-kB at serine 536 and reduced intracellular levels of caspase-3, alongside increased phosphorylation of RIPK3 and MLKL, suggesting potential involvement in necroptosis. OPF incorporation in muffins with sourdough increased antioxidant activity, reduced glycaemic index, and affected the volatile profile. Furthermore, based on simulated colonic fermentation, muffins with OPF showed a slight prebiotic effect, supported by the significant increase in bacillus-shaped lactic acid bacteria and Clostridia population. Overall, OPF-enriched muffins demonstrated considerable antioxidant effects and impacts on cell viability, underscoring their potential as functional ingredients in GF products. These findings signify the prospect of OPF enhancing the nutritional profiles and conferring health benefits of GF muffins.

Published
2024
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23. Novel signalling pathways in nephrogenic syndrome of inappropriate antidiuresis: functional implication of site-specific AQP2 phosphorylation.

Author

Venneri M, Vezzi V, Di Mise A, Ranieri M, Centrone M, Tamma G, Nejsum LN, and Valenti G

Subjects
Animals, Dogs, Humans, Genetic Diseases, X-Linked, Inappropriate ADH Syndrome metabolism, Inappropriate ADH Syndrome genetics, Madin Darby Canine Kidney Cells, Mutation, Phosphorylation, rho-Associated Kinases metabolism, rho-Associated Kinases genetics, Aquaporin 2 metabolism, Aquaporin 2 genetics, Receptors, Vasopressin genetics, Receptors, Vasopressin metabolism, Signal Transduction
Abstract

Nephrogenic syndrome of inappropriate antidiuresis (NSIAD) is a rare X-linked disease caused by gain-of-function mutations of arginine vasopressin receptor 2 (V2R). Patients with NSIAD are characterized by the inability to excrete a free water load and by inappropriately increased urinary osmolality despite very low levels of plasma vasopressin, resulting in euvolaemic hyponatraemia. To dissect the signalling downstream V2R constitutively active variants, Flp-In T-REx Madin-Darby canine kidney (FTM) cells, stably transfected with V2R mutants (R137L, R137C and F229V) and AQP2-wt or non-phosphorylatable AQP2-S269A/AQP2-S256A, were used as cellular models. All three activating V2R mutations presented constitutive plasma membrane expression of AQP2-wt and significantly higher basal water permeability. In addition, V2R-R137L/C showed significantly higher activity of Rho-associated kinase (ROCK), a serine/threonine kinase previously suggested to be involved in S269-AQP2 phosphorylation downstream of these V2R mutants. Interestingly, FTM cells expressing V2R-R137L/C mutants and AQP2-S269A showed a significant reduction in AQP2 membrane abundance and a significant reduction in ROCK activity, indicating the crucial importance of S269-AQP2 phosphorylation in the gain-of-function phenotype. Conversely, V2R-R137L/C mutants retained the gain-of-function phenotype when AQP2-S256A was co-expressed. In contrast, cells expressing the F229V mutant and the non-phosphorylatable AQP2-S256A had a significant reduction in AQP2 membrane abundance along with a significant reduction in basal osmotic water permeability, indicating a crucial role of Ser256 for this mutant. These data indicate that the constitutive AQP2 trafficking associated with the gain-of-function V2R-R137L/C mutants causing NSIAD is protein kinase A independent and requires an intact Ser269 in AQP2 under the control of ROCK phosphorylation. KEY POINTS: Nephrogenic syndrome of inappropriate antidiuresis is caused by two constitutively active variant phenotypes of AVPR2, one sensitive to vaptans (V2R-F229V) and the other vaptan resistant (V2R-R137C/L). In renal cells, all three activating arginine vasopressin receptor 2 (V2R) variants display constitutive AQP2 plasma membrane expression and high basal water permeability. In cells expressing V2R-R137L/C mutants, disruption of the AQP2-S269 phosphorylation site caused the loss of the gain-of-function phenotype, which, in contrast, was retained in V2R-F229V-expressing cells. Cells expressing the V2R-F229V mutant were instead sensitive to disruption of the AQP2-S256 phosphorylation site. The serine/threonine kinase Rho-associated kinase (ROCK) was found to be involved in AQP2-S269 phosphorylation downstream of the V2R-R137L/C mutants. These findings might have clinical relevance for patients with nephrogenic syndrome of inappropriate antidiuresis., (© 2023 The Authors. The Journal of Physiology published by John Wiley & Sons Ltd on behalf of The Physiological Society.)

Published
2024
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24. In vivo treatment with calcilytic of CaSR knock-in mice ameliorates renal phenotype reversing downregulation of the vasopressin-AQP2 pathway.

Author

Ranieri M, Angelini I, D'Agostino M, Di Mise A, Centrone M, Venneri M, Ferrulli A, Mastrodonato M, Tamma G, Endo I, Fukumoto S, Matsumoto T, and Valenti G

Subjects
Animals, Mice, Gene Knock-In Techniques, Kidney metabolism, Kidney drug effects, Mice, Inbred C57BL, Male, Signal Transduction, Phenotype, Hypercalciuria genetics, Hypercalciuria metabolism, Hypercalciuria drug therapy, Calcium metabolism, Phosphorylation, Hypocalcemia, Hypoparathyroidism congenital, Aquaporin 2 metabolism, Aquaporin 2 genetics, Receptors, Calcium-Sensing metabolism, Receptors, Calcium-Sensing genetics, Down-Regulation, Vasopressins metabolism
Abstract

High concentrations of urinary calcium counteract vasopressin action via the activation of the Calcium-Sensing Receptor (CaSR) expressed in the luminal membrane of the collecting duct cells, which impairs the trafficking of aquaporin-2 (AQP2). In line with these findings, we provide evidence that, with respect to wild-type mice, CaSR knock-in (KI) mice mimicking autosomal dominant hypocalcaemia, display a significant decrease in the total content of AQP2 associated with significantly higher levels of AQP2 phosphorylation at Ser261, a phosphorylation site involved in AQP2 degradation. Interestingly, KI mice also had significantly higher levels of phosphorylated p38MAPK, a downstream effector of CaSR and known to phosphorylate AQP2 at Ser261. Moreover, ATF1 phosphorylated at Ser63, a transcription factor downstream of p38MAPK, was significantly higher in KI. In addition, KI mice had significantly higher levels of AQP2-targeting miRNA137 consistent with a post-transcriptional downregulation of AQP2. In vivo treatment of KI mice with the calcilytic JTT-305, a CaSR antagonist, increased AQP2 expression and reduced AQP2-targeting miRNA137 levels in KI mice. Together, these results provide direct evidence for a critical role of CaSR in impairing both short-term vasopressin response by increasing AQP2-pS261, as well as AQP2 abundance, via the p38MAPK-ATF1-miR137 pathway. KEY POINTS: Calcium-Sensing Receptor (CaSR) activating mutations are the main cause of autosomal dominant hypocalcaemia (ADH) characterized by inappropriate renal calcium excretion leading to hypocalcaemia and hypercalciuria. Current treatments of ADH patients with parathyroid hormone, although improving hypocalcaemia, do not improve hypercalciuria or nephrocalcinosis. In vivo treatment with calcilytic JTT-305/MK-5442 ameliorates most of the ADH phenotypes of the CaSR knock-in mice including hypercalciuria or nephrocalcinosis and reverses the downregulation of the vasopressin-sensitive aquaporin-2 (AQP2) expression, providing direct evidence for a critical role of CaSR in impairing vasopressin response. The beneficial effect of calcilytic in reducing the risk of renal calcification may occur in a parathyroid hormone-independent action through vasopressin-dependent inhibition of cAMP synthesis in the thick ascending limb and in the collecting duct. The amelioration of most of the abnormalities in calcium metabolism including hypercalciuria, renal calcification, and AQP2-mediated osmotic water reabsorption makes calcilytic a good candidate as a novel therapeutic agent for ADH., (© 2024 The Authors. The Journal of Physiology © 2024 The Physiological Society.)

Published
2024
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25. Editorial: 72nd annual meeting of the Italian society of physiology: new perspectives in physiological research.

Author

Gerbino A, Tamma G, Conti F, and Valenti G

Abstract

Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest. The author(s) declared that they were an editorial board member of Frontiers, at the time of submission. This had no impact on the peer review process and the final decision.

Published
2024
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26. circPVT1 and PVT1/AKT3 show a role in cell proliferation, apoptosis, and tumor subtype-definition in small cell lung cancer.

Author

Tolomeo D, Traversa D, Venuto S, Ebbesen KK, García Rodríguez JL, Tamma G, Ranieri M, Simonetti G, Ghetti M, Paganelli M, Visci G, Liso A, Kok K, Muscarella LA, Fabrizio FP, Frassanito MA, Lamanuzzi A, Saltarella I, Solimando AG, Fatica A, Ianniello Z, Marsano RM, Palazzo A, Azzariti A, Longo V, Tommasi S, Galetta D, Catino A, Zito A, Mazza T, Napoli A, Martinelli G, Kjems J, Kristensen LS, Vacca A, and Storlazzi CT

Subjects
Humans, Cell Proliferation genetics, Apoptosis genetics, Cell Line, Tumor, Gene Expression Regulation, Neoplastic, Proto-Oncogene Proteins c-akt genetics, Small Cell Lung Carcinoma genetics, Lung Neoplasms genetics
Abstract

Small cell lung cancer (SCLC) is treated as a homogeneous disease, although the expression of NEUROD1, ASCL1, POU2F3, and YAP1 identifies distinct molecular subtypes. The MYC oncogene, amplified in SCLC, was recently shown to act as a lineage-specific factor to associate subtypes with histological classes. Indeed, MYC-driven SCLCs show a distinct metabolic profile and drug sensitivity. To disentangle their molecular features, we focused on the co-amplified PVT1, frequently overexpressed and originating circular (circRNA) and chimeric RNAs. We analyzed hsa_circ_0001821 (circPVT1) and PVT1/AKT3 (chimPVT1) as examples of such transcripts, respectively, to unveil their tumorigenic contribution to SCLC. In detail, circPVT1 activated a pro-proliferative and anti-apoptotic program when over-expressed in lung cells, and knockdown of chimPVT1 induced a decrease in cell growth and an increase of apoptosis in SCLC in vitro. Moreover, the investigated PVT1 transcripts underlined a functional connection between MYC and YAP1/POU2F3, suggesting that they contribute to the transcriptional landscape associated with MYC amplification. In conclusion, we have uncovered a functional role of circular and chimeric PVT1 transcripts in SCLC; these entities may prove useful as novel biomarkers in MYC-amplified tumors., (© 2022 Wiley Periodicals LLC.)

Published
2023
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27. Olive Leaf Extract (OLE) as a Novel Antioxidant That Ameliorates the Inflammatory Response in Cystic Fibrosis.

Author

Allegretta C, Difonzo G, Caponio F, Tamma G, and Laselva O

Subjects
Humans, Cystic Fibrosis Transmembrane Conductance Regulator genetics, Antioxidants pharmacology, Lipopolysaccharides pharmacology, Inflammation drug therapy, Cystic Fibrosis metabolism
Abstract

The deletion of phenylalanine at position 508 (F508del) produces a misfolded CFTR protein that is retained in the ER and degraded. The lack of normal CFTR channel activity is associated with chronic infection and inflammation which are the primary causes of declining lung function in Cystic Fibrosis (CF) patients. Moreover, LPS-dependent oxidative stress downregulates CFTR function in airway epithelial cells. Olive leaf extract (OLE) is used in traditional medicine for its effects, including anti-oxidant and anti-inflammatory ones. We found that OLE decreased the intracellular ROS levels in a dose-response manner in CFBE cells. Moreover, OLE attenuates the inflammatory response to LPS or IL-1β/TNFα stimulation, mimicking the infection and inflammatory status of CF patients, in CFBE and primary nasal epithelial (HNE) cells. Furthermore, we demonstrated that OLE restored the LPS-mediated decrease of Trikfafta TM -dependent F508del-CFTR function in CFBE and HNE cultures. These findings provide strong evidence of OLE to prevent redox imbalance and inflammation that can cause chronic lung damage by enhancing the antioxidant activity and attenuating inflammation in CF airway epithelial cells. Additionally, OLE might be used in combination with CFTR modulators therapy to improve their efficacy in CF patients.

Published
2023
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28. Uptake-Dependent and -Independent Effects of Fibroblasts-Derived Extracellular Vesicles on Bone Marrow Endothelial Cells from Patients with Multiple Myeloma: Therapeutic and Clinical Implications.

Author

Lamanuzzi A, Saltarella I, Reale A, Melaccio A, Solimando AG, Altamura C, Tamma G, Storlazzi CT, Tolomeo D, Desantis V, Mariggiò MA, Desaphy JF, Spencer A, Vacca A, Apollonio B, and Frassanito MA

Abstract

Extracellular vesicles (EVs) have emerged as important players in cell-to-cell communication within the bone marrow (BM) of multiple myeloma (MM) patients, where they mediate several tumor-associated processes. Here, we investigate the contribution of fibroblasts-derived EVs (FBEVs) in supporting BM angiogenesis. We demonstrate that FBEVs' cargo contains several angiogenic cytokines (i.e., VEGF, HGF, and ANG-1) that promote an early over-angiogenic effect independent from EVs uptake. Interestingly, co-culture of endothelial cells from MM patients (MMECs) with FBEVs for 1 or 6 h activates the VEGF/VEGFR2, HGF/HGFR, and ANG-1/Tie2 axis, as well as the mTORC2 and Wnt/β-catenin pathways, suggesting that the early over-angiogenic effect is a cytokine-mediated process. FBEVs internalization occurs after longer exposure of MMECs to FBEVs (24 h) and induces a late over-angiogenic effect by increasing MMECs migration, chemotaxis, metalloproteases release, and capillarogenesis. FBEVs uptake activates mTORC1, MAPK, SRC, and STAT pathways that promote the release of pro-angiogenic cytokines, further supporting the pro-angiogenic milieu. Overall, our results demonstrate that FBEVs foster MM angiogenesis through dual time-related uptake-independent and uptake-dependent mechanisms that activate different intracellular pathways and transcriptional programs, providing the rationale for designing novel anti-angiogenic strategies.

Published
2023
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29. Tamoxifen Affects Aquaporin-3 Expression and Subcellular Localization in Rat and Human Renal Collecting Ducts.

Author

Tingskov SJ, D'Agostino M, Login FH, Tamma G, Nejsum LN, and Nørregaard R

Subjects
Rats, Humans, Animals, Dogs, Aquaporin 3 metabolism, Lithium pharmacology, Tamoxifen pharmacology, Kidney metabolism, Aquaporin 2 metabolism, Kidney Tubules, Collecting, Diabetes Insipidus, Nephrogenic, Ureteral Obstruction
Abstract

Sex hormones play an important role in the regulation of water homeostasis, and we have previously shown that tamoxifen (TAM), a selective estrogen receptor modulator (SERM), affects the regulation of aquaporin (AQP)-2. In this study, we investigated the effect of TAM on the expression and localization of AQP3 in collecting ducts using various animal, tissue, and cell models. The impact of TAM on AQP3 regulation was studied in rats subjected to 7 days of unilateral ureteral obstruction (UUO), with the rats fed a lithium-containing diet to induce nephrogenic diabetes insipidus (NDI), as well as in human precision-cut kidney slices (PCKS). Moreover, intracellular trafficking of AQP3 after TAM treatment was investigated in Madin-Darby Canine Kidney (MDCK) cells stably expressing AQP3. In all models, the expression of AQP3 was evaluated by Western blotting, immunohistochemistry and qPCR. TAM administration attenuated UUO-induced downregulation of AQP3 and affected the localization of AQP3 in both the UUO model and the lithium-induced NDI model. In parallel, TAM also affected the expression profile of other basolateral proteins, including AQP4 and Na/K-ATPase. In addition, TGF-β and TGF-β+TAM treatment affected the localization of AQP3 in stably transfected MDCK cells, and TAM partly attenuated the reduced AQP3 expression in TGF-β exposed human tissue slices. These findings suggest that TAM attenuates the downregulation of AQP3 in a UUO model and a lithium-induced NDI model and affects the intracellular localization in the collecting ducts.

Published
2023
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31. AQP2 trafficking in health and diseases: an updated overview.

Author

Centrone M, Ranieri M, Di Mise A, D'Agostino M, Venneri M, Ferrulli A, Valenti G, and Tamma G

Subjects
A Kinase Anchor Proteins metabolism, Cell Membrane metabolism, Endocytosis, Kidney metabolism, Water, Aquaporin 2 metabolism, Vasopressins metabolism, Vasopressins pharmacology
Abstract

Renal collecting duct principal cells play a key role in controlling body water balance. Principal cells express the water channels AQP2, AQP3, and AQP4 that mediate renal water reabsorption. AQP3 and AQP4 are expressed at the basolateral membrane constitutively. Conversely, AQP2 is localized in intracellular vesicles and translocates to the plasma membrane under vasopressin action. Stimulation with vasopressin activates the cAMP/PKA signal transduction pathway that induces the redistribution of AQP2 from an intracellular pool to the apical plasma membrane. AQP2 trafficking and function depend on multiple post-translational modifications. Moreover, several proteins control different steps activated by the vasopressin stimulation that triggers the redistribution of the AQP2 vesicles. A-kinase anchoring proteins (AKAPs) together with phosphodiesterases and adenylate cyclases play crucial roles in modulating local changes of cAMP. Soluble N-ethylmaleimide sensitive fusion factor attachment protein receptors (SNARE), cytoskeletal proteins, and the small GTPases of the Rho family regulate the fusion and the endocytotic retrieval of AQP2 vesicles. Abnormal vasopressin signaling and altered AQP2 expression or trafficking can lead to disorders characterized by deregulated mechanisms controlling water homeostasis. This review provides updated data on the molecular signals regulating vasopressin-induced AQP2 trafficking in health and disease., (Copyright © 2022. Published by Elsevier Ltd.)

Published
2022
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32. dDAVP Downregulates the AQP3-Mediated Glycerol Transport via V1aR in Human Colon HCT8 Cells.

Author

Centrone M, D'Agostino M, Ranieri M, Mola MG, Faviana P, Lippolis PV, Silvestris DA, Venneri M, Di Mise A, Valenti G, and Tamma G

Abstract

Vasopressin (AVP) plays a key function in controlling body water and salt balance through the activation of the vasopressin receptors V1aR and V2R. Abnormal secretion of AVP can cause the syndrome of inappropriate antidiuresis that leads to hyponatremia, which is an electrolyte disorder often observed in the elderly hospitalized and oncologic patients. Beyond kidneys, the colonic epithelium modulates water and salt homeostasis. The water channel AQP3, expressed in villus epithelial cells is implicated in water absorption across human colonic surface cells. Here, the action of dDAVP, a stable vasopressin analog, was evaluated on the AQP3 expression and function using human colon HCT8 cells as an experimental model. Confocal and Western Blotting analysis revealed that HCT8 cells express both V1aR and V2R. Long-term (72 h) treatment with dDAVP reduced glycerol uptake and cell viability. These effects were prevented by SR49059, a synthetic antagonist of V1aR, but not by tolvaptan, a specific V2R antagonist. Of note, the SR49059 action was impaired by DFP00173, a selective inhibitor of AQP3. Interestingly, compared to the normal colonic mucosa, in the colon of patients with adenocarcinoma, the expression of V1aR was significantly decreased. These findings were confirmed by gene expression analysis with RNA-Seq data. Overall, data suggest that dDAVP, through the V1aR dependent pathway, reduces AQP3 mediated glycerol uptake, a process that is reversed in adenocarcinoma, suggesting that the AVP-dependent AQP3 pathway may represent a novel target in colon diseases associated with abnormal cell growth., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest. The handling editor SD declared a past collaboration with the author GT., (Copyright © 2022 Centrone, D’Agostino, Ranieri, Mola, Faviana, Lippolis, Silvestris, Venneri, Di Mise, Valenti and Tamma.)

Published
2022
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33. Early Biomarkers of Altered Renal Function and Orthostatic Intolerance During 10-day Bedrest.

Author

Tamma G, Di Mise A, Ranieri M, Centrone M, Venneri M, D'Agostino M, Ferrulli A, Šimunič B, Narici M, Pisot R, and Valenti G

Abstract

Exposure to actual or simulated microgravity results in alterations of renal function, fluid redistribution, and bone loss, which is coupled to a rise of urinary calcium excretion. We provided evidence 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 to reduce calcium saturation. To investigate early renal adaptation into simulated microgravity, we investigated the effects of 10 days of strict bedrest in 10 healthy volunteers. We report here that 10 days of inactivity are associated with a transient, significant decrease (day 5) in vasopressin (copeptin) paralleled by a decrease in AQP2 excretion, consistent with an increased central volume to the heart, resulting in reduced water reabsorption. Moreover, bedrest caused a significant increase in calciuria secondary to bone demineralization paralleled by a decrease in PTH. Urinary osteopontin, a glycoprotein exerting a protective effect on stone formation, was significantly reduced during bedrest. Moreover, a significant increase in adrenomedullin (day 5), a peptide with vasodepressor properties, was observed at day 5, which may contribute to the known reduced orthostatic capacity post-bedrest. We conclude that renal function is altered in simulated microgravity and is associated with an early increase in the risk of stone formation and reduced orthostatic capacity post-bedrest within a few days of inactivity., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2022 Tamma, Di Mise, Ranieri, Centrone, Venneri, D’Agostino, Ferrulli, Šimunič, Narici, Pisot and Valenti.)

Published
2022
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34. "Good Wine Makes Good Blood": An Integrated Approach to Characterize Autochthonous Apulian Grapevines as Promising Candidates for Healthy Wines.

Author

Sabetta W, Centrone M, D'Agostino M, Difonzo G, Mansi L, Tricarico G, Venerito P, Picardi E, Ceci LR, Tamma G, Caponio F, Montemurro C, and Volpicella M

Subjects
Caco-2 Cells, Fruit chemistry, Humans, Phenols analysis, Phenols metabolism, Plant Extracts metabolism, Plant Extracts pharmacology, Vitis metabolism, Wine analysis
Abstract

Wine production represents an ancient human activity and one of the most economically important markets in Europe. Moreover, the health effects of grapes and related products have been largely demonstrated, and mostly depend on their richness in bioactive molecules such as flavonoid and non-flavonoid phenolic compounds. Italy has the highest global wine production and provides one of the richest grapevine germplasm in the Mediterranean area. In this paper, our attention was focused on the evaluation of the total phenol and anthocyanin content in five autochthonous Apulian grapevine cultivars, in both wines and their non-alcoholic extracts. Moreover, the potential antioxidant effects of the non-alcoholic wine extracts on the cell viability of Caco-2 and HeLa carcinoma cell lines were tested. Finally, for the most promising autochthonous selected cultivars (Negramaro, Nero di Troia and Susumaniello), comparative transcriptomic analysis in berries was performed using high-throughput sequencing technology., Competing Interests: Competing Interests: The authors have declared that no competing interest exists., (© The author(s).)

Published
2022
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35. Desmopressin Stimulates Nitric Oxide Production in Human Lung Microvascular Endothelial Cells.

Author

Rotoli BM, Visigalli R, Ferrari F, Ranieri M, Tamma G, Dall'Asta V, and Barilli A

Subjects
Endothelial Cells, Endothelium, Vascular metabolism, Humans, Lung metabolism, Deamino Arginine Vasopressin metabolism, Deamino Arginine Vasopressin pharmacology, Nitric Oxide metabolism
Abstract

Desmopressin (dDAVP) is the best characterized analogue of vasopressin, the endocrine regulator of water balance endowed with potent vasoconstrictive effects. Despite the use of dDAVP in clinical practice, ranging from the treatment of nephrogenic diabetes insipidus to bleeding disorders, much remains to be understood about the impact of the drug on endothelial phenotype. The aim of this study was, thus, to evaluate the effects of desmopressin on the viability and function of human pulmonary microvascular endothelial cells (HLMVECs). The results obtained demonstrate that the vasopressor had no cytotoxic effect on the endothelium; similarly, no sign of endothelial activation was induced by dDAVP, indicated by the lack of effect on the expression of inflammatory cytokines and adhesion molecules. Conversely, the drug significantly stimulated the production of nitric oxide (NO) and the expression of the inducible isoform of nitric oxide synthase, NOS2/iNOS. Since the intracellular level of cAMP also increased, we can hypothesize that NO release is consequent to the activation of the vasopressin receptor 2 (V2R)/guanylate cyclase (Gs)/cAMP axis. Given the multifaceted role of NOS2-deriving NO for many physio-pathological conditions, the meanings of these findings in HLMVECs appears intriguing and deserves to be further addressed.

Published
2022
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36. Functional interplay between CFTR and pendrin: physiological and pathophysiological relevance.

Author

Tamma G and Dossena S

Subjects
Chlorides metabolism, Iodides metabolism, Sulfate Transporters genetics, Sulfate Transporters metabolism, Bicarbonates metabolism, Cystic Fibrosis Transmembrane Conductance Regulator genetics, Cystic Fibrosis Transmembrane Conductance Regulator metabolism
Abstract

The transport of chloride and bicarbonate across epithelia controls the pH and volume of the intracellular and luminal fluids, as well as the systemic pH and vascular volume. The anion exchanger pendrin (SLC26A4) and the cystic fibrosis transmembrane conductance regulator (CFTR) channel are expressed in the apical membrane of epithelial cells of various organs and tissues, including the airways, kidney, thyroid, and inner ear. While pendrin drives chloride reabsorption and bicarbonate, thiocyanate or iodide secretion within the apical compartment, CFTR represents a pathway for the apical efflux of chloride, bicarbonate, and possibly iodide. In the airways, pendrin and CFTR seems to be involved in alkalinization of the apical fluid via bicarbonate secretion, especially during inflammation, while CFTR also controls the volume of the apical fluid via a cAMP-dependent chloride secretion, which is stimulated by pendrin. In the kidney, pendrin is expressed in the cortical collecting duct and connecting tubule and co-localizes with CFTR in the apical membrane of β intercalated cells. Bicarbonate secretion occurs via pendrin, which also drives chloride reabsorption. A functional CFTR is required for pendrin activity. Whether CFTR stimulates pendrin via a direct molecular interaction or other mechanisms, or simply provides a pathway for chloride recycling across the apical membrane remains to be established. In the thyroid, CFTR and pendrin might have overlapping functions in driving the apical flux of iodide within the follicular lumen. In other organs, including the inner ear, the possible functional interplay between pendrin and CFTR needs to be explored., Competing Interests: The authors declare no conflict of interest., (© 2022 The Author(s). Published by IMR Press.)

Published
2022
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39. Olive Leaf Extract (OLE) impaired vasopressin-induced aquaporin-2 trafficking through the activation of the calcium-sensing receptor.

Author

Ranieri M, Di Mise A, Centrone M, D'Agostino M, Tingskov SJ, Venneri M, Pellegrino T, Difonzo G, Caponio F, Norregaard R, Valenti G, and Tamma G

Subjects
Animals, Cell Line, Epithelial Cells drug effects, Epithelial Cells metabolism, Humans, Kidney Tubules, Collecting cytology, Kidney Tubules, Collecting metabolism, Plant Extracts chemistry, Protein Transport drug effects, Rats, Receptors, Calcium-Sensing metabolism, Aquaporin 2 metabolism, Olea chemistry, Plant Extracts pharmacology, Plant Leaves chemistry, Receptors, Calcium-Sensing agonists, Vasopressins pharmacology
Abstract

Vasopressin (AVP) increases water permeability in the renal collecting duct through the regulation of aquaporin-2 (AQP2) trafficking. Several disorders, including hypertension and inappropriate antidiuretic hormone secretion (SIADH), are associated with abnormalities in water homeostasis. It has been shown that certain phytocompounds are beneficial to human health. Here, the effects of the Olive Leaf Extract (OLE) have been evaluated using in vitro and in vivo models. Confocal studies showed that OLE prevents the vasopressin induced AQP2 translocation to the plasma membrane in MCD4 cells and rat kidneys. Incubation with OLE decreases the AVP-dependent increase of the osmotic water permeability coefficient (Pf). To elucidate the possible effectors of OLE, intracellular calcium was evaluated. OLE increases the intracellular calcium through the activation of the Calcium Sensing Receptor (CaSR). NPS2143, a selective CaSR inhibitor, abolished the inhibitory effect of OLE on AVP-dependent water permeability. In vivo experiments revealed that treatment with OLE increases the expression of the CaSR mRNA and decreases AQP2 mRNA paralleled by an increase of the AQP2-targeting miRNA-137. Together, these findings suggest that OLE antagonizes vasopressin action through stimulation of the CaSR indicating that this extract may be beneficial to attenuate disorders characterized by abnormal CaSR signaling and affecting renal water reabsorption.

Published
2021
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40. The vasopressin-aquaporin-2 pathway syndromes.

Author

Valenti G and Tamma G

Subjects
Humans, Mutation, Receptors, Vasopressin genetics, Receptors, Vasopressin metabolism, Vasopressins metabolism, Aquaporin 2 genetics, Diabetes Insipidus, Nephrogenic genetics
Abstract

Vasopressin is the key hormone involved in water conservation and regulation of water balance, essential for life. In the renal collecting duct, vasopressin binds to the V2 receptor, increasing water permeability through activation of aquaporin-2 redistribution to the luminal membrane. This mechanism promotes rapid water reabsorption, important for immediate survival; however, only recently it has become clear that long-term adverse effects are associated with alterations of the vasopressin-aquaporin-2 pathway, leading to several syndromes associated with water balance disorders. The kidney resistance to the vasopressin action may cause severe dehydration for patients and, conversely, nonosmotic release of vasopressin is associated with water retention and increasing the circulatory blood volume. This chapter discusses the relevance of the altered vasopressin-aquaporin-2 pathway in some diseases associated with water balance disorders, including congenital nephrogenic diabetes insipidus, syndrome of inappropriate secretion of antidiuretic hormone, nephrogenic syndrome of inappropriate antidiuresis, and autosomal dominant polycystic kidney disease. The emerging picture suggests that targeting the vasopressin-AQP2 axis can provide therapeutic benefits in those patients., (Copyright © 2021 Elsevier B.V. All rights reserved.)

Published
2021
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41. Antioxidant Efficacy of Olive By-Product Extracts in Human Colon HCT8 Cells.

Author

Centrone M, D'Agostino M, Difonzo G, De Bruno A, Di Mise A, Ranieri M, Montemurro C, Valenti G, Poiana M, Caponio F, and Tamma G

Abstract

The production of olive oil is accompanied by the generation of a huge amount of waste and by-products including olive leaves, pomace, and wastewater. The latter represents a relevant environmental issue because they contain certain phytotoxic compounds that may need specific treatments before the expensive disposal. Therefore, reducing waste biomass and valorizing by-products would make olive oil production more sustainable. Here, we explore the biological actions of extracts deriving from olive by-products including olive pomace (OP), olive wastewater (OWW), and olive leaf (OLs) in human colorectal carcinoma HCT8 cells. Interestingly, with the same phenolic concentration, the extract obtained from the OWW showed higher antioxidant ability compared with the extracts derived from OP and OLs. These biological effects may be related to the differential phenolic composition of the extracts, as OWW extract contains the highest amount of hydroxytyrosol and tyrosol that are potent antioxidant compounds. Furthermore, OP extract that contains a higher level of vanillic acid than the other extracts displayed a cytotoxic action at the highest concentration. Together these findings revealed that phenols in the by-product extracts may interfere with signaling molecules that cross-link several intracellular pathways, raising the possibility to use them for beneficial health effects.

Published
2020
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42. The Vasopressin Receptor 2 Mutant R137L Linked to the Nephrogenic Syndrome of Inappropriate Antidiuresis (NSIAD) Signals through an Alternative Pathway that Increases AQP2 Membrane Targeting Independently of S256 Phosphorylation.

Author

Ranieri M, Venneri M, Pellegrino T, Centrone M, Di Mise A, Cotecchia S, Tamma G, and Valenti G

Subjects
Animals, Cell Line, Cell Membrane drug effects, Cyclic AMP-Dependent Protein Kinases antagonists & inhibitors, Cyclic AMP-Dependent Protein Kinases metabolism, GTP-Binding Protein alpha Subunits, G12-G13 metabolism, Humans, Mice, Models, Biological, Mutant Proteins metabolism, Osmosis, Phosphorylation drug effects, Protein Kinase Inhibitors pharmacology, Water metabolism, rho GTP-Binding Proteins metabolism, rho-Associated Kinases metabolism, Aquaporin 2 metabolism, Cell Membrane metabolism, Genetic Diseases, X-Linked genetics, Inappropriate ADH Syndrome genetics, Mutation genetics, Phosphoserine metabolism, Receptors, Vasopressin genetics, Signal Transduction drug effects
Abstract

NSIAD is a rare X-linked condition, caused by activating mutations in the AVPR2 gene coding for the vasopressin V2 receptor (V2R) associated with hyponatremia, despite undetectable plasma vasopressin levels. We have recently provided in vitro evidence that, compared to V2R-wt, expression of activating V2R mutations R137L, R137C and F229V cause a constitutive redistribution of the AQP2 water channel to the plasma membrane, higher basal water permeability and significantly higher basal levels of p256-AQP2 in the F229V mutant but not in R137L or R137C. In this study, V2R mutations were expressed in collecting duct principal cells and the associated signalling was dissected. V2R-R137L and R137C mutants had significantly higher basal pT269-AQP2 levels -independently of S256 and PKA-which were reduced to control by treatment with Rho kinase (ROCK) inhibitor. Interestingly, ROCK activity was found significantly higher in V2R-R137L along with activation of the Gα12/13-Rho-ROCK pathway. Of note, inhibition of ROCK reduced the basal elevated osmotic water permeability to control. To conclude, our data demonstrate for the first time that the gain-of-function mutation of the V2R, R137L causing NSIAD, signals through an alternative PKA-independent pathway that increases AQP2 membrane targeting through ROCK-induced phosphorylation at S/T269 independently of S256 of AQP2.

Published
2020
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43. In Vitro and In Vivo Nutraceutical Characterization of Two Chickpea Accessions: Differential Effects on Hepatic Lipid Over-Accumulation.

Author

Centrone M, Gena P, Ranieri M, Di Mise A, D'Agostino M, Mastrodonato M, Venneri M, De Angelis D, Pavan S, Pasqualone A, Summo C, Fanelli V, Valenti G, Calamita G, and Tamma G

Abstract

Dietary habits are crucially important to prevent the development of lifestyle-associated diseases. Diets supplemented with chickpeas have numerous benefits and are known to improve body fat composition. The present study was undertaken to characterize two genetically and phenotypically distinct accessions, MG_13 and PI358934, selected from a global chickpea collection. Rat hepatoma FaO cells treated with a mixture of free fatty acids (FFAs) (O/P) were used as an in vitro model of hepatic steatosis. In parallel, a high-fat diet (HFD) animal model was also established. In vitro and in vivo studies revealed that both chickpea accessions showed a significant antioxidant ability. However, only MG_13 reduced the lipid over-accumulation in steatotic FaO cells and in the liver of HFD fed mice. Moreover, mice fed with HFD + MG_13 displayed a lower level of glycemia and aspartate aminotransferase (AST) than HFD mice. Interestingly, exposure to MG_13 prevented the phosphorylation of the inflammatory nuclear factor kappa beta (NF-kB) which is upregulated during HFD and known to be linked to obesity. To conclude, the comparison of the two distinct chickpea accessions revealed a beneficial effect only for the MG_13. These findings highlight the importance of studies addressing the functional characterization of chickpea biodiversity and nutraceutical properties.

Published
2020
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44. Calcium sensing receptor exerts a negative regulatory action toward vasopressin-induced aquaporin-2 expression and trafficking in renal collecting duct.

Author

Ranieri M, Di Mise A, Tamma G, and Valenti G

Subjects
Cell Membrane metabolism, Cell Movement, Humans, Kidney metabolism, MicroRNAs, Neurophysins, Phosphorylation, Protein Precursors, Protein Transport, Signal Transduction, Aquaporin 2 metabolism, Receptors, Calcium-Sensing metabolism, Receptors, Calcium-Sensing physiology, Vasopressins metabolism
Abstract

Vasopressin (AVP) plays a major role in the regulation of water homeostasis by its antidiuretic action on the kidney, mediated by V2 receptors. An increase in plasma sodium concentration stimulates AVP release, which in turn promotes water reabsorption. Upon binding to the V2 receptors in the renal collecting duct, AVP induces the expression and apical membrane insertion of the aquaporin-2 (AQP2) water channels and subsequent water reabsorption. AVP regulates two independent mechanisms: the short-term regulation of AQP2 trafficking and long-term regulation of the total abundance of the AQP2 protein in the cells. On the other hand, several hormones, acting through specific receptors, have been reported to antagonize AVP-mediated water transport in kidney. In this respect, we previously described that high luminal Ca 2+ in the renal collecting duct attenuates short-term AVP-induced AQP2 trafficking through activation of the Ca 2+ -sensing receptor (CaSR). This effect is due to reduction of AVP-dependent cAMP generation and possibly hydrolysis. Moreover, CaSR signaling reduces AQP2 abundance both via AQP2-targeting miRNA-137 and the proteasomal degradation pathway. This chapter summarizes recent data elucidating the molecular mechanisms underlying the physiological role of the CaSR-dependent regulation of AQP2 expression and trafficking., (© 2020 Elsevier Inc. All rights reserved.)

Published
2020
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45. Lixivaptan, a New Generation Diuretic, Counteracts Vasopressin-Induced Aquaporin-2 Trafficking and Function in Renal Collecting Duct Cells.

Author

Di Mise A, Venneri M, Ranieri M, Centrone M, Pellegrini L, Tamma G, and Valenti G

Subjects
Animals, Aquaporin 2 genetics, Cell Line, Deamino Arginine Vasopressin adverse effects, Gene Expression Regulation drug effects, Kidney Tubules, Collecting metabolism, Mice, Phosphorylation, Receptors, Vasopressin genetics, Signal Transduction drug effects, Aquaporin 2 metabolism, Benzamides pharmacology, Diuretics pharmacology, Kidney Tubules, Collecting cytology, Pyrroles pharmacology, Receptors, Vasopressin metabolism
Abstract

Vasopressin V2 receptor (V2R) antagonists (vaptans) are a new generation of diuretics. Compared with classical diuretics, vaptans promote the excretion of retained body water in disorders in which plasma vasopressin concentrations are inappropriately high for any given plasma osmolality. Under these conditions, an aquaretic drug would be preferable over a conventional diuretic. The clinical efficacy of vaptans is in principle due to impaired vasopressin-regulated water reabsorption via the water channel aquaporin-2 (AQP2). Here, the effect of lixivaptan-a novel selective V2R antagonist-on the vasopressin-cAMP/PKA signaling cascade was investigated in mouse renal collecting duct cells expressing AQP2 (MCD4) and the human V2R. Compared to tolvaptan-a selective V2R antagonist indicated for the treatment of clinically significant hypervolemic and euvolemic hyponatremia-lixivaptan has been predicted to be less likely to cause liver injury. In MCD4 cells, clinically relevant concentrations of lixivaptan (100 nM for 1 h) prevented dDAVP-induced increase of cytosolic cAMP levels and AQP2 phosphorylation at ser-256. Consistent with this finding, real-time fluorescence kinetic measurements demonstrated that lixivaptan prevented dDAVP-induced increase in osmotic water permeability. These data represent the first detailed demonstration of the central role of AQP2 blockade in the aquaretic effect of lixivaptan and suggest that lixivaptan has the potential to become a safe and effective therapy for the treatment of disorders characterized by high plasma vasopressin concentrations and water retention.

Published
2019
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47. Gain-of-function mutations of the V2 vasopressin receptor in nephrogenic syndrome of inappropriate antidiuresis (NSIAD): a cell-based assay to assess constitutive water reabsorption.

Author

Ranieri M, Tamma G, Pellegrino T, Vezzi V, Ambrosio C, Grò C, Di Mise A, Costa T, Valenti G, and Cotecchia S

Subjects
Animals, Cell Line, Genetic Diseases, X-Linked metabolism, Humans, Inappropriate ADH Syndrome metabolism, Mice, Receptors, Vasopressin metabolism, Vasopressins metabolism, Water metabolism, Water-Electrolyte Balance, Aquaporin 2 metabolism, Gain of Function Mutation, Genetic Diseases, X-Linked genetics, Inappropriate ADH Syndrome genetics, Receptors, Vasopressin genetics, Renal Reabsorption
Abstract

Nephrogenic syndrome of inappropriate antidiuresis (NSIAD) is a recently identified chromosome X-linked disease associated with gain-of-function mutations of the V2 vasopressin receptor (V2R), a G-protein-coupled receptor. It is characterized by inability to excrete a free water load, hyponatremia, and undetectable vasopressin-circulating levels. Hyponatremia can be quite severe in affected male children. To gain a deeper insight into the functional properties of the V2R active mutants and how they might translate into the pathological outcome of NSIAD, in this study, we have expressed the wild-type V2R and three constitutively active V2R mutants associated with NSIAD (R137L, R137C, and the F229V) in MCD4 cells, a cell line derived from renal mouse collecting duct, stably expressing the vasopressin-sensitive water channel aquaporin-2 (AQP2). Our findings indicate that in cells expressing each active mutant, AQP2 was constitutively localized to the apical plasma membrane in the absence of vasopressin stimulation. In line with these observations, under basal conditions, osmotic water permeability in cells expressing the constitutively active mutants was significantly higher compared to that of cells expressing the wild-type V2R. Our findings demonstrate a direct link between activating mutations of the V2R and the perturbation of water balance in NSIAD. In addition, this study provides a useful cell-based assay system to assess the functional consequences of newly discovered activating mutations of the V2R on water permeability in kidney cells and to screen the effect of drugs on the mutated receptors.

Published
2019
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48. Binding of the protein ICln to α-integrin contributes to the activation of ICl swell current.

Author

Schedlbauer A, Tamma G, Rodighiero S, Civello DA, Tamplenizza M, Ledolter K, Nofziger C, Patsch W, Konrat R, Paulmichl M, and Dossena S

Subjects
Animals, Cell Membrane genetics, Chloride Channels genetics, Dogs, HEK293 Cells, Humans, Integrin alpha Chains genetics, Ion Transport, Madin Darby Canine Kidney Cells, Blood Platelets metabolism, Cell Membrane metabolism, Chloride Channels metabolism, Integrin alpha Chains metabolism
Abstract

ICl swell is the chloride current induced by cell swelling, and plays a fundamental role in several biological processes, including the regulatory volume decrease (RVD). ICln is a highly conserved, ubiquitously expressed and multifunctional protein involved in the activation of ICl swell . In platelets, ICln binds to the intracellular domain of the integrin αIIb chain, however, whether the ICln/integrin interaction plays a role in RVD is not known. Here we show that a direct molecular interaction between ICln and the integrin α-chain is not restricted to platelets and involves highly conserved amino acid motifs. Integrin α recruits ICln to the plasma membrane, thereby facilitating the activation of ICl swell during hypotonicity. Perturbation of the ICln/integrin interaction prevents the transposition of ICln towards the cell surface and, in parallel, impedes the activation of ICl swell . We suggest that the ICln/integrin interaction interface may represent a new molecular target enabling specific ICl swell suppression in pathological conditions when this current is deregulated or plays a detrimental role.

Published
2019
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49. Green olive leaf extract (OLE) provides cytoprotection in renal cells exposed to low doses of cadmium.

Author

Ranieri M, Di Mise A, Difonzo G, Centrone M, Venneri M, Pellegrino T, Russo A, Mastrodonato M, Caponio F, Valenti G, and Tamma G

Subjects
Animals, Cell Line, Cell Survival drug effects, Cytoprotection drug effects, Kidney cytology, Mice, Plant Extracts chemistry, Protective Agents chemistry, Cadmium toxicity, Kidney drug effects, Olea chemistry, Plant Extracts pharmacology, Protective Agents pharmacology
Abstract

Cadmium (Cd) is a heavy and highly toxic metal that contaminates air, food and water. Cadmium accumulates in several organs altering normal functions. The kidney is the major organ at risk of damage from chronic exposure to cadmium as a contaminant in food and water. This study aims to investigate the beneficial effects of OLE in renal collecting duct MCD4 cells exposed to a low dose cadmium (1 μM). In MCD4 cells cadmium caused an increase in ROS production, as well as generation of lipid droplets and reduced cell viability. Moreover, cadmium exposure led to a remarkable increase in the frequency of micronuclei and DNA double-strand breaks, assessed using the alkaline comet assay. In addition, cadmium dramatically altered cell cytoskeleton architecture and caused S-glutathionylation of actin. Notably, all cadmium-induced cellular deregulations were prevented by co-treatment with OLE, possibly due to its antioxidant action and to the presence of bioactive phytocompounds. Indeed, OLE treatment attenuated Cd-induced actin S-glutathionylation, thereby stabilizing actin filaments. Taken together, these observations provide a novel insight into the biological action of OLE in renal cells and support the notion that OLE may serve as a potential adjuvant against cadmium-induced nephrotoxicity., Competing Interests: The authors have declared that no competing interests exist.

Published
2019
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50. Comparison between men and women of volume regulating hormones and aquaporin-2 excretion following graded central hypovolemia.

Author

Goswami N, Reichmuth J, Di Mise A, Brix B, Roessler A, Centrone M, Ranieri M, Russo A, De Santo NG, Tamma G, Sasso FC, and Valenti G

Subjects
Adult, Blood Pressure physiology, Cardiac Output physiology, Female, Humans, Lower Body Negative Pressure methods, Male, Neurophysins metabolism, Protein Precursors metabolism, Sex Factors, Vasopressins metabolism, Young Adult, Aquaporin 2 metabolism, Heart Rate physiology, Hypovolemia etiology, Vascular Resistance physiology
Abstract

Central hypovolemia induced by orthostatic loading causes reno-vascular changes that can lead to orthostatic intolerance. In this study, we investigated volume regulating hormonal responses and reno-vascular changes in male and female subjects as they underwent central hypovolemia, induced by graded lower body negative pressure (LBNP). Aquaporin-2 (AQP2) excretion was measured as a biomarker for the renal system response to vasopressin. 37 young healthy subjects (n = 19 males; n = 18 females) were subjected to graded LBNP until - 40 mmHg LBNP. Under resting conditions, males had significantly higher copeptin (a stable peptide derived from vasopressin) levels compared with females. Adrenocorticotropin (ACTH), adrenomedullin (ADM), vasopressin (AVP) and brain natriuretic peptide (BNP) were not affected by our experimental protocol. Nevertheless, an analysis of ADM and BNP with the data normalized as percentages of the baseline value data showed an increase from baseline to 10 min after recovery in the males in ADM and in the females in BNP. Analysis of BNP and ADM raises the possibility of a preferential adaptive vascular response to central hypovolemia in males as shown by the normalized increase in ADM, whereas females showed a preferential renal response as shown by the normalized increase in BNP. Furthermore, our results suggest that there might be a difference between men and women in the copeptin response to alterations in orthostatic loading, simulated either using LBNP or during posture changes.

Published
2019
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