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2. Tigecycline Opposes Bortezomib Effect on Myeloma Cells Decreasing Mitochondrial Reactive Oxygen Species Production.

Author

Ramos-Acosta, Carlos, Huerta-Pantoja, Laura, Salazar-Hidalgo, Milton Eduardo, Mayol, Elsa, Jiménez-Vega, Selene, García-Peña, Pablo, Jordi-Cruz, Jenifeer, Baquero, Cristina, Porras, Almudena, Íñigo-Rodríguez, Belén, Benavente, Celina M., López-Pastor, Andrea R., Gómez-Delgado, Irene, Urcelay, Elena, Candel, Francisco Javier, and Anguita, Eduardo

Subjects
REACTIVE oxygen species, BORTEZOMIB, PLASMA cells, MULTIPLE myeloma, ANTINEOPLASTIC agents, MITOCHONDRIA
Abstract

Multiple myeloma is an incurable plasma cell malignancy. Most patients end up relapsing and developing resistance to antineoplastic drugs, like bortezomib. Antibiotic tigecycline has activity against myeloma. This study analyzed tigecycline and bortezomib combination on cell lines and plasma cells from myeloma patients. Apoptosis, autophagic vesicles, mitochondrial mass, mitochondrial superoxide, cell cycle, and hydrogen peroxide were studied by flow cytometry. In addition, mitochondrial antioxidants and electron transport chain complexes were quantified by reverse transcription real-time PCR (RT-qPCR) or western blot. Cell metabolism and mitochondrial activity were characterized by Seahorse and RT-qPCR. We found that the addition of tigecycline to bortezomib reduces apoptosis in proportion to tigecycline concentration. Supporting this, the combination of both drugs counteracts bortezomib in vitro individual effects on the cell cycle, reduces autophagy and mitophagy markers, and reverts bortezomib-induced increase in mitochondrial superoxide. Changes in mitochondrial homeostasis and MYC upregulation may account for some of these findings. These data not only advise to avoid considering tigecycline and bortezomib combination for treating myeloma, but caution on the potential adverse impact of treating infections with this antibiotic in myeloma patients under bortezomib treatment. [ABSTRACT FROM AUTHOR]

Published
2024
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5. Complement Genetic Variants and FH Desialylation in S. pneumoniae -Haemolytic Uraemic Syndrome.

Author

Gómez Delgado, Irene, Corvillo, Fernando, Nozal, Pilar, Arjona, Emilia, Madrid, Álvaro, Melgosa, Marta, Bravo, Juan, Szilágyi, Ágnes, Csuka, Dorottya, Veszeli, Nóra, Prohászka, Zoltán, and Sánchez-Corral, Pilar

Subjects
HEMOLYTIC-uremic syndrome, STREPTOCOCCUS pneumoniae, BLOOD proteins, SIALIC acids
Abstract

Haemolytic Uraemic Syndrome associated with Streptococcus pneumoniae infections (SP-HUS) is a clinically well-known entity that generally affects infants, and could have a worse prognosis than HUS associated to E. coli infections. It has been assumed that complement genetic variants associated with primary atypical HUS cases (aHUS) do not contribute to SP-HUS, which is solely attributed to the action of the pneumococcal neuraminidase on the host cellular surfaces. We previously identified complement pathogenic variants and risk polymorphisms in a few Hungarian SP-HUS patients, and have now extended these studies to a cohort of 13 Spanish SP-HUS patients. Five patients presented rare complement variants of unknown significance, but the frequency of the risk haplotypes in the CFH-CFHR3-CFHR1 region was similar to the observed in aHUS. Moreover, we observed desialylation of Factor H (FH) and the FH-Related proteins in plasma samples from 2 Spanish and 4 Hungarian SP-HUS patients. To analyze the functional relevance of this finding, we compared the ability of native and " in vitro " desialylated FH in: (a) binding to C3b-coated microtiter plates; (b) proteolysis of fluid-phase and surface-bound C3b by Factor I; (c) dissociation of surface bound-C3bBb convertase; (d) haemolytic assays on sheep erythrocytes. We found that desialylated FH had reduced capacity to control complement activation on sheep erythrocytes, suggesting a role for FH sialic acids on binding to cellular surfaces. We conclude that aHUS-risk variants in the CFH-CFHR3-CFHR1 region could also contribute to disease-predisposition to SP-HUS, and that transient desialylation of complement FH by the pneumococcal neuraminidase may have a role in disease pathogenesis. [ABSTRACT FROM AUTHOR]

Published
2021
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6. High Complement Factor H-Related (FHR)-3 Levels Are Associated With the Atypical Hemolytic-Uremic Syndrome-Risk Allele CFHR3*B.

Author

Pouw, Richard B., Gómez Delgado, Irene, López Lera, Alberto, Rodríguez de Córdoba, Santiago, Wouters, Diana, Kuijpers, Taco W., and Sánchez-Corral, Pilar

Subjects
HEMOLYTIC-uremic syndrome treatment, COMPLEMENT factor H, HAPLOTYPES
Abstract

Dysregulation of the complement alternative pathway (AP) is a major pathogenic mechanism in atypical hemolytic-uremic syndrome (aHUS). Genetic or acquired defects in factor H (FH), the main AP regulator, are major aHUS drivers that associate with a poor prognosis. FH activity has been suggested to be downregulated by homologous FH-related (FHR) proteins, including FHR-3 and FHR-1. Hence, their relative levels in plasma could be disease-relevant. The genes coding for FH, FHR-3, and FHR-1 (CFH, CFHR3, and CFHR1, respectively) are polymorphic and located adjacent to each other on human chromosome 1q31.3. We have previously shown that haplotype CFH(H3)-CFHR3*B-CFHR1*B associates with aHUS and reduced FH levels. In this study, we used a specific enzyme-linked immunosorbent assay to quantify FHR-3 in plasma samples from controls and patients with aHUS genotyped for the three known CFHR3 alleles (CFHR3*A, CFHR3*B, and CFHR3*Del). In the 218 patients carrying at least one copy of CFHR3, significant differences between CFHR3 genotype groups were found, with CFHR3*A/Del patients having the lowest FHR-3 concentration (0.684-1.032 µg/mL), CFHR3*B/Del and CFHR3*A/A patients presenting intermediate levels (1.437-2.201 µg/mL), and CFHR3*A/B and CFHR3*B/B patients showing the highest concentration (2.330-4.056 µg/mL) (p < 0.001). These data indicate that CFHR3*A is a low-expression allele, whereas CFHR3*B, associated with increased risk of aHUS, is a high-expression allele. Our study reveals that the aHUS-risk haplotype CFH(H3)-CFHR3*B-CFHR1*B generates twofold more FHR-3 than the non-risk CFH(H1)-CFHR3*A-CFHR1*A haplotype. In addition, FHR-3 levels were higher in patients with aHUS than in control individuals with the same CFHR3 genotype. These data suggest that increased plasma levels of FHR-3, altering the balance between FH and FHR-3, likely impact the FH regulatory functions and contribute to the development of aHUS. [ABSTRACT FROM AUTHOR]

Published
2018
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7. Corrigendum: High Complement Factor H-Related (FHR)-3 Levels Are Associated With the Atypical Hemolytic-Uremic Syndrome-Risk Allele CFHR3 * B.

Author

Pouw, Richard B., Gómez Delgado, Irene, López Lera, Alberto, Rodríguez de Córdoba, Santiago, Wouters, Diana, Kuijpers, Taco W., and Sánchez-Corral, Pilar

Subjects
COMPLEMENT factor H, ALLELES, HEMOLYTIC-uremic syndrome
Abstract

Keywords: complement; factor H; factor H-related protein 3; CFHR3 gene; atypical hemolytic-uremic syndrome Complement, factor H, factor H-related protein 3, CFHR3 gene, atypical hemolytic-uremic syndrome. [Extracted from the article]

Published
2020
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8. Complement Genetic Variants and FH Desialylation in S. pneumoniae-Haemolytic Uraemic Syndrome

Author

Irene Gómez Delgado, Fernando Corvillo, Pilar Nozal, Emilia Arjona, Álvaro Madrid, Marta Melgosa, Juan Bravo, Ágnes Szilágyi, Dorottya Csuka, Nóra Veszeli, Zoltán Prohászka, Pilar Sánchez-Corral, Instituto de Salud Carlos III, European Commission, Comunidad de Madrid, Fundación Senefro, Ministry of Human Capacities (Hungary), Semmelweis University, Hungarian Academy of Sciences, Gómez Delgado, Irene [0000-0002-9734-8788], Corvillo, Fernando [0000-0001-6418-5647], Nozal, Pilar [0000-0002-8981-4312], Arjona, Emilia [0000-0002-0753-3657], Madrid, Álvaro [0000-0002-5942-8488], Melgosa, Marta [0000-0001-6236-414X], Csuka, Dorottya [0000-0003-3610-9852], Veszeli, Nóra [0000-0002-7647-2173], Prohászka, Zoltán [0000-0003-1761-7982], Sánchez-Corral, Pilar [0000-0003-4212-1233], Gómez Delgado, Irene, Corvillo, Fernando, Nozal, Pilar, Arjona, Emilia, Madrid, Álvaro, Melgosa, Marta, Csuka, Dorottya, Veszeli, Nóra, Prohászka, Zoltán, and Sánchez-Corral, Pilar

Subjects
Male, 0301 basic medicine, genetic variant, lcsh:Immunologic diseases. Allergy, Proteolysis, Immunology, 030232 urology & nephrology, Complement factor I, Biology, urologic and male genital diseases, Pneumococcal Infections, 03 medical and health sciences, 0302 clinical medicine, hemic and lymphatic diseases, Complement C3b Inactivator Proteins, medicine, Humans, Immunology and Allergy, Genetic Predisposition to Disease, complement system, Original Research, Atypical Hemolytic Uremic Syndrome, Polymorphism, Genetic, medicine.diagnostic_test, Haplotype, Infant, Blood Proteins, factor H, In vitro, Complement (complexity), Complement system, Streptococcus pneumoniae, 030104 developmental biology, Child, Preschool, Complement Factor H, Streptococcus pneumoniae (pneumococcus), biology.protein, Haemolytic Uraemic Syndrome, Female, Haemolytic-uraemic syndrome, lcsh:RC581-607, Neuraminidase
Abstract

15 p.-8 fig.-3 tab., Haemolytic Uraemic Syndrome associated with Streptococcus pneumoniae infections (SP-HUS) is a clinically well-known entity that generally affects infants, and could have a worse prognosis than HUS associated to E. coli infections. It has been assumed that complement genetic variants associated with primary atypical HUS cases (aHUS) do not contribute to SP-HUS, which is solely attributed to the action of the pneumococcal neuraminidase on the host cellular surfaces. We previously identified complement pathogenic variants and risk polymorphisms in a few Hungarian SP-HUS patients, and have now extended these studies to a cohort of 13 Spanish SP-HUS patients. Five patients presented rare complement variants of unknown significance, but the frequency of the risk haplotypes in the CFH-CFHR3-CFHR1 region was similar to the observed in aHUS. Moreover, we observed desialylation of Factor H (FH) and the FH-Related proteins in plasma samples from 2 Spanish and 4 Hungarian SP-HUS patients. To analyze the functional relevance of this finding, we compared the ability of native and “in vitro” desialylated FH in: (a) binding to C3b-coated microtiter plates; (b) proteolysis of fluid-phase and surface-bound C3b by Factor I; (c) dissociation of surface bound-C3bBb convertase; (d) haemolytic assays on sheep erythrocytes. We found that desialylated FH had reduced capacity to control complement activation on sheep erythrocytes, suggesting a role for FH sialic acids on binding to cellular surfaces. We conclude that aHUS-risk variants in the CFH-CFHR3-CFHR1 region could also contribute to disease-predisposition to SP-HUS, and that transient desialylation of complement FH by the pneumococcal neuraminidase may have a role in disease pathogenesis., This study was funded by the Spanish Instituto de Salud Carlos III (ISCIII) and the European Regional Development Fund from the European Union (grants PI16/00723 and PI19/00970 to PS-C). IG and EA are supported by the Spanish Autonomous Region of Madrid (Complement II-CM network; S2017/BMD-3673). IG was also supported by the Spanish Fundación Senefro (http://www.senefro.org/). The study was also supported by the Higher Education Institutional Excellence Programme of the Ministry of Human Capacities in Hungary, within the framework of the molecular biology thematic programme of the Semmelweis University, by the National Office for Innovation and Research (KH130355 to ZP), and by the MSCA-ITN (Horizon 2020) CORVOS (Grant 860044 to ZP). DC was supported by the Premium Postdoctoral Fellowship Program of the Hungarian Academy of Sciences (PPD2018-016/2018).

Published
2021
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9. Contribution of functional and quantitative genetic variants of Complement Factor H and Factor H-Related (FHR) proteins on renal pathology.

Author

Gómez Delgado I and Sánchez-Corral P

Abstract

The complement system is a first line of defence against infectious, tumoral or autoimmune processes, and it is constitutively regulated to avoid excessive or unspecific activation. Factor H (FH), a most relevant complement regulator, controls complement activation in plasma and on the cellular surfaces of autologous tissues. FH shares evolutionary origin and structural features with a group of plasma proteins known as FH-Related Proteins (FHRs), which could act as FH functional antagonists. Studies in patient cohorts of atypical Haemolytic-Uraemic Syndrome (aHUS), C3 Glomerulopathy (C3G), and IgA nephropathy (IgAN), have identified rare genetic variants that give rise to severe FH and FHRs dysfunctions, and are major genetic predisposing factors. These patients also have a higher frequency of a few polymorphisms whose relevance as disease risk factors is incompletely understood. In the last years, the availability of specific reagents has allowed a more precise quantitation of FH and FHRs in plasma samples from patients and controls. These studies have revealed that some aHUS, C3G or IgAN risk polymorphisms determine mild changes in FH or FHRs levels that could somehow perturb complement regulation and favour disease pathogenesis., (Copyright © 2021 Sociedad Española de Nefrología. Published by Elsevier España, S.L.U. All rights reserved.)

Published
2021
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10. Low factor H-related 5 levels contribute to infection-triggered haemolytic uraemic syndrome and membranoproliferative glomerulonephritis.

Author

Gómez Delgado I, Gutiérrez-Tenorio J, Fraga Rodríguez GM, Cavero T, Arjona E, and Sánchez-Corral P

Abstract

Dysregulation of the alternative complement pathway is a major pathogenic mechanism in two rare renal diseases: atypical haemolytic uraemic syndrome (aHUS) and membranoproliferative glomerulonephritis (MPGN). We report on a 66-year-old male with chronic hepatitis C virus (HCV) infection and a combined liver-kidney transplant that was diagnosed with MPGN at the age of 63 years and a 5-year-old boy who presented with aHUS at the age of 21 months following a Streptococcus pneumoniae infection. Both patients carried similar frameshift variants in the complement CFHR5 gene that segregate with reduced levels of factor H-related 5 (FHR-5). We conclude that low FHR-5 levels may predispose to viral and bacterial infections that then trigger different renal phenotypes., (© The Author(s) 2020. Published by Oxford University Press on behalf of ERA-EDTA.)

Published
2020
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11. Corrigendum: High Complement Factor H-Related (FHR)-3 Levels Are Associated With the Atypical Hemolytic-Uremic Syndrome-Risk Allele CFHR3 * B .

Author

Pouw RB, Gómez Delgado I, López Lera A, Rodríguez de Córdoba S, Wouters D, Kuijpers TW, and Sánchez-Corral P

Abstract

[This corrects the article DOI: 10.3389/fimmu.2018.00848.]., (Copyright © 2020 Pouw, Gómez Delgado, López Lera, Rodríguez de Córdoba, Wouters, Kuijpers and Sánchez-Corral.)

Published
2020
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