Search

Your search keyword '"Guidicelli G"' showing total 21 results
Start Over Author "Guidicelli G" Search Limiters Full Text
21 results on '"Guidicelli G"'

10. Characterization of the novel HLA-DPA1*02:15 allele by sequencing-based typing

Author

Blouin, L., Andreani, M., Locatelli, Franco, Guidicelli, G., Visentin, J., Locatelli F. (ORCID:0000-0002-7976-3654), Blouin, L., Andreani, M., Locatelli, Franco, Guidicelli, G., Visentin, J., and Locatelli F. (ORCID:0000-0002-7976-3654)

Abstract

HLA-DPA1*02:15 differs from HLA-DPA1*02:06 by one nucleotide substitution in codon 218 in exon 4.

Published
2019

11. TRANSPLANTATION CLINICAL 1

Author

Schachtner, T., primary, Reinke, P., additional, Dorje, C., additional, Mjoen, G., additional, Midtvedt, K., additional, Strom, E. H., additional, Oyen, O., additional, Jenssen, T., additional, Reisaeter, A. V., additional, Smedbraaten, Y. V., additional, Sagedal, S., additional, Fagerland, M. W., additional, Hartmann, A., additional, Thiel, S., additional, Zulkarnaev, A., additional, Vatazin, A., additional, Vincenti, F., additional, Harel, E., additional, Kantor, A., additional, Thurison, T., additional, Hoyer-Hansen, G., additional, Craik, C., additional, Kute, V. B., additional, Shah, P. S., additional, Vanikar, A. V., additional, Modi, P. R., additional, Shah, P. R., additional, Gumber, M. R., additional, Patel, H. V., additional, Engineer, D. P., additional, Shah, V. R., additional, Rizvi, J., additional, Trivedi, H. L., additional, Malheiro, J., additional, Dias, L., additional, Martins, L. S., additional, Fonseca, I., additional, Pedroso, S., additional, Almeida, M., additional, Castro-Henriques, A., additional, Cabrita, A., additional, Costa, C., additional, Ritta, M., additional, Sinesi, F., additional, Sidoti, F., additional, Mantovani, S., additional, Di Nauta, A., additional, Messina, M., additional, Cavallo, R., additional, Verflova, A., additional, Svobodova, E., additional, Slatinska, J., additional, Slavcev, A., additional, Pokorna, E., additional, Viklicky, O., additional, Yagan, J., additional, Chandraker, A., additional, Diena, D., additional, Tognarelli, G., additional, Ranghino, A., additional, Bussolino, S., additional, Fop, F., additional, Segoloni, G. P., additional, Biancone, L., additional, Leone, F., additional, Mauro, M. V., additional, Gigliotti, P., additional, Lofaro, D., additional, Greco, F., additional, Perugini, D., additional, Papalia, T., additional, Perri, A., additional, Vizza, D., additional, Giraldi, C., additional, Bonofilgio, R., additional, Luis-Lima, S., additional, Marrero, D., additional, Gonzalez-Rinne, A., additional, Torres, A., additional, Salido, E., additional, Jimenez-Sosa, A., additional, Aldea-Perona, A., additional, Gonzalez-Posada, J. M., additional, Perez-Tamajon, L., additional, Rodriguez-Hernandez, A., additional, Negrin-Mena, N., additional, Porrini, E., additional, Pihlstrom, H., additional, Dahle, D. O., additional, Holdaas, H., additional, Von Der Lippe, N., additional, Waldum, B., additional, Brekke, F., additional, Amro, A., additional, Os, I., additional, Klin, P., additional, Sanabria, H., additional, Bridoux, P., additional, De Francesco, J., additional, Fortunato, R. M., additional, Raffaele, P., additional, Kong, J., additional, Son, S. H., additional, Kwon, H. Y., additional, Whang, E. J., additional, Choi, W. Y., additional, Yoon, C. S., additional, Thanaraj, V., additional, Theakstone, A., additional, Stopper, K., additional, Ferraro, A., additional, Bhattacharjya, S., additional, Devonald, M., additional, Williams, A., additional, Mella, A., additional, Gallo, E., additional, Di Vico, M. C., additional, Pagani, F., additional, Gai, M., additional, Cho, H. J., additional, Nho, K. W., additional, Park, S.-K., additional, Kim, S. B., additional, Yoshida, K., additional, Ishii, D., additional, Ohyama, T., additional, Kohguchi, D., additional, Takeuchi, Y., additional, Varga, A., additional, Sandor, B., additional, Kalmar-Nagy, K., additional, Toth, A., additional, Toth, K., additional, Szakaly, P., additional, Kildushevsky, A., additional, Fedulkina, V., additional, Kantaria, R., additional, Staeck, O., additional, Halleck, F., additional, Rissling, O., additional, Naik, M., additional, Neumayer, H.-H., additional, Budde, K., additional, Khadzhynov, D., additional, Bhadauria, D., additional, Kaul, A., additional, Prasad, N., additional, Sharma, R. K., additional, Sezer, S., additional, Bal, Z., additional, Erkmen Uyar, M., additional, Guliyev, O., additional, Erdemir, B., additional, Colak, T., additional, Ozdemir, N., additional, Haberal, M., additional, Caliskan, Y., additional, Yazici, H., additional, Artan, A. S., additional, Oto, O. A., additional, Aysuna, N., additional, Bozfakioglu, S., additional, Turkmen, A., additional, Yildiz, A., additional, Sever, M. S., additional, Yagisawa, T., additional, Nukui, A., additional, Kimura, T., additional, Nannmoku, K., additional, Kurosawa, A., additional, Sakuma, Y., additional, Miki, A., additional, Damiano, F., additional, Ligabue, G., additional, De Biasi, S., additional, Granito, M., additional, Cossarizza, A., additional, Cappelli, G., additional, Henriques, A. C., additional, Davide, J., additional, Von During, M. E., additional, Jenssen, T. G., additional, Bollerslev, J., additional, Godang, K., additional, Asberg, A., additional, Bachelet, T., additional, Martinez, C., additional, Bello, A., additional, Kejji, S., additional, Couzi, L., additional, Guidicelli, G., additional, Lepreux, S., additional, Visentin, J., additional, Congy-Jolivet, N., additional, Rostaing, L., additional, Taupin, J.-L., additional, Kamar, N., additional, Merville, P., additional, Ozdemir, H., additional, Yildirim, S., additional, Tutal, E., additional, Sayin, B., additional, Ozdemir Acar, N., additional, Banasik, M., additional, Boratynska, M., additional, Koscielska-Kasprzak, K., additional, Kaminska, D., additional, Bartoszek, D., additional, Mazanowska, O., additional, Krajewska, M., additional, Zmonarski, S., additional, Chudoba, P., additional, Dawiskiba, T., additional, Protasiewicz, M., additional, Halon, A., additional, Sas, A., additional, Kaminska, M., additional, Klinger, M., additional, Stefanovic, N., additional, Cvetkovic, T., additional, Velickovic - Radovanovic, R., additional, Jevtovic - Stoimenov, T., additional, Vlahovic, P., additional, Rungta, R., additional, Das, P., additional, Ray, D. S., additional, Gupta, S., additional, Kolonko, A., additional, Szotowska, M., additional, Kuczera, P., additional, Chudek, J., additional, Wiecek, A., additional, Sikora-Grabka, E., additional, Adamczak, M., additional, Madej, P., additional, Amanova, A., additional, Kendi Celebi, Z., additional, Bakar, F., additional, Caglayan, M. G., additional, Keven, K., additional, Massimetti, C., additional, Imperato, G., additional, Zampi, G., additional, De Vincenzi, A., additional, Fabbri, G. D. D., additional, Brescia, F., additional, Feriozzi, S., additional, Filipov, J. J., additional, Zlatkov, B. K., additional, Dimitrov, E. P., additional, Svinarov, D. A., additional, Poesen, R., additional, De Vusser, K., additional, Evenepoel, P., additional, Kuypers, D., additional, Naesens, M., additional, Meijers, B., additional, Kocak, H., additional, Yilmaz, V. T., additional, Yilmaz, F., additional, Uslu, H. B., additional, Aliosmanoglu, I., additional, Ermis, H., additional, Dinckan, A., additional, Cetinkaya, R., additional, Ersoy, F. F., additional, Suleymanlar, G., additional, Oliveira, J.-C., additional, Santos, J., additional, Lobato, L., additional, Mendonca, D., additional, Watarai, Y., additional, Yamamoto, T., additional, Tsujita, M., additional, Hiramitsu, T., additional, Goto, N., additional, Narumi, S., additional, Kobayashi, T., additional, Line, P.-D., additional, Housawi, A., additional, House, A., additional, Ng, C., additional, Denesyk, K., additional, Rehman, F., additional, Moist, L., additional, Musetti, C., additional, Battista, M., additional, Izzo, C., additional, Guglielmetti, G., additional, Airoldi, A., additional, Stratta, P., additional, Cena, T., additional, Quaglia, M., additional, Fenoglio, R., additional, Cagna, D., additional, Amoroso, A., additional, Palmisano, A., additional, Degli Antoni, A. M., additional, Vaglio, A., additional, Piotti, G., additional, Cremaschi, E., additional, Buzio, C., additional, Maggiore, U., additional, Lee, M.-C., additional, Hsu, B.-G., additional, Zalamea Jarrin, F., additional, Sanchez Sobrino, B., additional, Lafuente Covarrubias, O., additional, Karsten Alvarez, S., additional, Dominguez Apinaniz, P., additional, Llopez Carratala, R., additional, Portoles Perez, J., additional, Yildirim, T., additional, Yilmaz, R., additional, Turkmen, E., additional, Altindal, M., additional, Arici, M., additional, Altun, B., additional, Erdem, Y., additional, Dounousi, E., additional, Mitsis, M., additional, Naka, K., additional, Pappas, H., additional, Lakkas, L., additional, Harisis, H., additional, Pappas, K., additional, Koutlas, V., additional, Tzalavra, I., additional, Spanos, G., additional, Michalis, L., additional, Siamopoulos, K., additional, Iwabuchi, T., additional, Nanmoku, K., additional, Yasunaru, S., additional, Yoshikawa, M., additional, Kitamura, K., additional, Fuji, H., additional, Fujisawa, M., additional, Nishi, S., additional, Carta, P., additional, Zanazzi, M., additional, Buti, E., additional, Larti, A., additional, Caroti, L., additional, Di Maria, L., additional, Minetti, E. E., additional, Shi, Y., additional, Luo, L., additional, Cai, B., additional, Wang, T., additional, Zou, Y., additional, Wang, L., additional, Kim, Y., additional, Kim, H. S., additional, Choi, B. S., additional, Park, C. W., additional, Yang, C. W., additional, Kim, Y.-S., additional, Chung, B. H., additional, Baek, C. H., additional, Kim, M., additional, Kim, J.-S., additional, Yang, W. S., additional, Han, D. J., additional, Mikolasevic, I., additional, Racki, S., additional, Lukenda, V., additional, Persic, M. P., additional, Colic, M., additional, Devcic, B., additional, Orlic, L., additional, Gurlek Demirci, B., additional, Say N, C. B., additional, Ozdemir Acar, F. N., additional, Vali, S., additional, Ismal, K., additional, Sahay, M., additional, Civiletti, F., additional, Cantaluppi, V., additional, Medica, D., additional, Mazzeo, A. T., additional, Assenzio, B., additional, Mastromauro, I., additional, Deambrosis, I., additional, Giaretta, F., additional, Fanelli, V., additional, Mascia, L., additional, Gkirdis, I., additional, Bechlioulis, A., additional, Evangelou, D., additional, Zarzoulas, F., additional, Kotsia, A., additional, Balafa, O., additional, Tzeltzes, G., additional, Nakas, G., additional, Kalaitzidis, R., additional, Katsouras, C., additional, Uyanik, S., additional, Toprak, S. K., additional, Ilhan, O., additional, Ekmen Uyar, M., additional, Hernandez Vargas, H., additional, Artamendi Larranaga, M., additional, Ramalle Gomara, E., additional, Gil Catalinas, F., additional, Bello Ovalle, A., additional, Pimentel Guzman, G., additional, Coloma Lopez, A., additional, Sierra Carpio, M., additional, Gil Paraiso, A., additional, Dall Anesse, C., additional, Beired Val, I., additional, Huarte Loza, E., additional, Choy, B. Y., additional, Kwan, L., additional, Mok, M., additional, Chan, T. M., additional, Yamakawa, T., additional, Kobayashi, A., additional, Yamamoto, I., additional, Mafune, A., additional, Nakada, Y., additional, Tannno, Y., additional, Tsuboi, N., additional, Yamamoto, H., additional, Yokoyama, K., additional, Ohkido, I., additional, Yokoo, T., additional, Luque, Y., additional, Anglicheau, D., additional, Rabant, M., additional, Clement, R., additional, Kreis, H., additional, Sartorius, A., additional, Noel, L.-H., additional, Timsit, M.-O., additional, Legendre, C., additional, Rancic, N., additional, Vavic, N., additional, Dragojevic-Simic, V., additional, Katic, J., additional, Jacimovic, N., additional, Kovacevic, A., additional, Mikov, M., additional, Veldhuijzen, N. M. H., additional, Rookmaaker, M. B., additional, Van Zuilen, A. D., additional, Nquyen, T. Q., additional, Boer, W. H., additional, Sahtout, W., additional, Ghezaiel, H., additional, Azzebi, A., additional, Ben Abdelkrim, S., additional, Guedri, Y., additional, Mrabet, S., additional, Nouira, S., additional, Ferdaws, S., additional, Amor, S., additional, Belarbia, A., additional, Zellama, D., additional, Mokni, M., additional, Achour, A., additional, Parikova, A., additional, Hanzal, V., additional, Fronek, J., additional, Orandi, B. J., additional, James, N. T., additional, Montgomery, R. A., additional, Desai, N. M., additional, Segev, D. L., additional, Fontana, F., additional, Ballestri, M., additional, and Magistroni, R., additional

Published
2014
Full Text
View/download PDF

12. Prospective Measures of Adherence by Questionnaire, Low Immunosuppression and Graft Outcome in Kidney Transplantation.

Author

Prezelin-Reydit M, Dubois V, Caillard S, Parissiadis A, Etienne I, Hau F, Albano L, Pourtein M, Barrou B, Taupin JL, Mariat C, Absi L, Vigneau C, Renac V, Guidicelli G, Visentin J, Merville P, Thaunat O, and Couzi L

Abstract

Background: Non-adherence with immunosuppressant medication (MNA) fosters development of de novo donor-specific antibodies ( dn DSA), rejection, and graft failure (GF) in kidney transplant recipients (KTRs). However, there is no simple tool to assess MNA, prospectively. The goal was to monitor MNA and analyze its predictive value for dn DSA generation, acute rejection and GF., Methods: We enrolled 301 KTRs in a multicentric French study. MNA was assessed prospectively at 3, 6, 12, and 24 months (M) post-KT, using the Morisky scale. We investigated the association between MNA and occurrence of dn DSA at year 2 post transplantation, using logistic regression models and the association between MNA and rejection or graft failure, using Cox multivariable models., Results: The initial percentage of MNA patients was 17.7%, increasing to 34.6% at 24 months. Nineteen patients (8.4%) developed dn DSA 2 to 3 years after KT. After adjustment for recipient age, HLA sensitization, HLA mismatches, and maintenance treatment, MNA was associated neither with dn DSA occurrence, nor acute rejection. Only cyclosporine use and calcineurin inhibitor (CNI) withdrawal were strongly associated with dn DSA and rejection. With a median follow-up of 8.9 years, GF occurred in 87 patients (29.0%). After adjustment for recipient and donor age, CNI trough level, dn DSA, and rejection, MNA was not associated with GF. The only parameters associated with GF were dn DSA occurrence, and acute rejection., Conclusions: Prospective serial monitoring of MNA using the Morisky scale does not predict dn DSA occurrence, rejection or GF in KTRs. In contrast, cyclosporine and CNI withdrawal induce dnDSA and rejection, which lead to GF.

Published
2021
Full Text
View/download PDF

13. Reassessment of the clinical impact of preformed donor-specific anti-HLA-Cw antibodies in kidney transplantation.

Author

Visentin J, Bachelet T, Aubert O, Del Bello A, Martinez C, Jambon F, Guidicelli G, Ralazamahaleo M, Bouthemy C, Cargou M, Congy-Jolivet N, Nong T, Lee JH, Sberro-Soussan R, Couzi L, Kamar N, Legendre C, Merville P, and Taupin JL

Subjects
Flow Cytometry, Graft Rejection etiology, Graft Survival, HLA Antigens, Histocompatibility Testing, Humans, Isoantibodies, Tissue Donors, Kidney Transplantation
Abstract

Anti-denatured HLA-Cw antibodies are highly prevalent, whereas anti-native HLA-Cw antibodies seem to lead to random flow cytometry crossmatch results. We aimed to reassess crossmatch prediction for anti-HLA-Cw using 2 types of single antigen flow beads (classical beads and beads with diminished expression of denatured HLA), and to compare the pathogenicity of preformed anti-denatured and anti-native HLA-Cw antibodies in kidney transplantation. We performed 135 crossmatches with sera reacting against donor HLA-Cw (classical beads fluorescence ≥500); only 20.6% were positive. Forty-three (31.6%) were anti-denatured HLA antibodies (beads with diminished expression of denatured HLA fluorescence <300); all were crossmatch negative. The correlation between classical beads fluorescence and the crossmatch ratio was low (ρ = 0.178), and slightly higher with beads with diminished expression of denatured HLA (ρ = 0.289). We studied 52 kidney recipients with preformed anti-HLA-Cw donor-specific antibodies. Those with anti-native HLA antibodies experienced more acute and chronic antibody-mediated rejections (P = .006 and .03, respectively), and displayed a lower graft survival (P = .04). Patients with anti-native HLA-Cw antibodies more frequently had previous sensitizing events (P < .000001) or plausibility of their antibody profile according to known anti-native HLA-Cw eplets (P = .0001). Anti-native but not anti-denatured HLA-Cw antibodies are deleterious, which underscores the need for reagents with diminished expression of denatured HLA., (© 2019 The American Society of Transplantation and the American Society of Transplant Surgeons.)

Published
2020
Full Text
View/download PDF

14. Overcoming non-specific binding to measure the active concentration and kinetics of serum anti-HLA antibodies by surface plasmon resonance.

Author

Visentin J, Couzi L, Dromer C, Neau-Cransac M, Guidicelli G, Veniard V, Coniat KN, Merville P, Di Primo C, and Taupin JL

Subjects
Histocompatibility Antigens Class I immunology, Humans, Kinetics, Limit of Detection, Oligonucleotide Array Sequence Analysis, Antibodies analysis, Antibodies metabolism, Biosensing Techniques instrumentation, Biosensing Techniques methods, Surface Plasmon Resonance
Abstract

Human leukocyte antigen (HLA) donor-specific antibodies are key serum biomarkers for assessing the outcome of transplanted patients. Measuring their active concentration, i.e. the fraction that really interacts with donor HLA, and their affinity could help deciphering their pathogenicity. Surface plasmon resonance (SPR) is recognized as the gold-standard for measuring binding kinetics but also active concentrations, without calibration curves. SPR-based biosensors often suffer from non-specific binding (NSB) occurring with the sensor chip surface and the immobilized targets, especially for complex media such as human serum. In this work we show that several serum treatments such as dialysis or IgG purification reduce NSB but insufficiently for SPR applications. We then demonstrate that the NSB contribution to the SPR signal can be eliminated to determine precisely and reliably the active concentration and the affinity of anti-HLA antibodies from patients' sera. This was achieved even at concentrations close to the limit of quantification of the method, in the 0.5-1 nM range. The robustness of the assay was demonstrated by using a wide range of artificially generated NSB and by varying the density of the targets captured onto the surface. The assay is of general interest and can be used with molecules generating strong NSB, as far as a non-cognate target structurally close to the target can be captured on the same flow cell, in a different binding cycle. Compared with current fluorescence-based methods that are semi-quantitative, we expect this SPR-based assay to help better understanding anti-HLA antibodies pathogenicity and improving organ recipients' management., (Copyright © 2018 Elsevier B.V. All rights reserved.)

Published
2018
Full Text
View/download PDF

15. The disappointing contribution of anti-human leukocyte antigen donor-specific antibodies characteristics for predicting allograft loss.

Author

Courant M, Visentin J, Linares G, Dubois V, Lepreux S, Guidicelli G, Thaunat O, Merville P, Couzi L, and Taupin JL

Subjects
Allografts, Complement C1q analysis, Complement C1q immunology, Female, Glomerular Filtration Rate, Graft Rejection diagnosis, Graft Rejection epidemiology, Humans, Male, Middle Aged, Prognosis, Retrospective Studies, Transplant Recipients, Graft Rejection immunology, HLA Antigens immunology, Isoantibodies immunology, Kidney Transplantation adverse effects, Risk Assessment methods, Tissue Donors
Abstract

Background: Pathogenicity of donor-specific antibodies (DSAs) can be assessed using the single-antigen flow beads (SAFB) assays through mean fluorescence intensity (MFI) with or without serum ethylenediaminetetraacetic acid (EDTA) treatment, measurement of C1q or C3d binding and/or their intragraft detection [graft-bound donor-specific antibody (gDSA)]. We aimed to investigate which of these markers best associates with antibody-mediated rejection (ABMR) and kidney allograft loss at the time of a for-cause biopsy., Methods: This retrospective, single-centre study included 77 kidney transplant recipients who underwent a for-cause biopsy between December 2004 and July 2013. All displayed serum DSAs were identified on the same day as the biopsy. Sera were tested in parallel with the classical SAFB assay with or without serum EDTA treatment, C1q- and C3d-binding assays. gDSAs were eluted from biopsy fragments and identified with SAFB., Results: The median time between transplantation and biopsy was 25 months (range 0.5-251). The median follow-up was 36 months (range 0-140). ABMR was histologically proven in 40% of recipients. The sensitivity and specificity of C1q, C3d and gDSA assays for predicting ABMR were 68% and 61%, 52% and 70% and 64.5% and 56.5%, respectively. At the time of biopsy, only the DSA MFI after EDTA treatment and C3d positivity were associated with graft loss. In multivariate analyses, glomerular filtration rate, transplant glomerulopathy and C4d positivity were the only factors associated with graft loss., Conclusions: Our findings weaken the rationale for systematically implementing C1q, C3d or gDSA assays in this situation, because they do not independently predict ABMR and graft loss.

Published
2018
Full Text
View/download PDF

17. Anti-HLA donor-specific antibodies are not created equally. Don't forget the flow….

Author

Bachelet T, Visentin J, Guidicelli G, Merville P, Couzi L, and Taupin JL

Subjects
Adult, Antilymphocyte Serum, Donor Selection methods, Female, Flow Cytometry, Humans, Immunoglobulin G immunology, Immunoglobulin M immunology, Male, Middle Aged, Prospective Studies, Renal Insufficiency blood, Renal Insufficiency immunology, Tissue Donors, Tissue and Organ Procurement methods, Treatment Outcome, Blood Grouping and Crossmatching methods, HLA Antigens immunology, Isoantibodies blood, Kidney Transplantation
Published
2016
Full Text
View/download PDF

18. Non-Complement-Binding De Novo Donor-Specific Anti-HLA Antibodies and Kidney Allograft Survival.

Author

Guidicelli G, Guerville F, Lepreux S, Wiebe C, Thaunat O, Dubois V, Visentin J, Bachelet T, Morelon E, Nickerson P, Merville P, Taupin JL, and Couzi L

Subjects
Adult, Complement System Proteins metabolism, Female, Humans, Male, Middle Aged, Protein Binding immunology, Retrospective Studies, Risk Factors, Tissue Donors, Allografts immunology, Antibodies immunology, Antibody Specificity, Graft Survival immunology, HLA Antigens immunology, Kidney Transplantation
Abstract

C1q-binding ability may indicate the clinical relevance of de novo donor-specific anti-HLA antibodies (DSA). This study investigated the incidence and risk factors for the appearance of C1q-binding de novo DSA and their long-term impact. Using Luminex Single Antigen Flow Bead assays, 346 pretransplant nonsensitized kidney recipients were screened at 2 and 5 years after transplantation for de novo DSA, which was followed when positive by a C1q Luminex assay. At 2 and 5 years, 12 (3.5%) and eight (2.5%) patients, respectively, had C1q-binding de novo DSA. De novo DSA mean fluorescence intensity >6237 and >10,000 at 2 and 5 years, respectively, predicted C1q binding. HLA mismatches and cyclosporine A were independently associated with increased risk of C1q-binding de novo DSA. When de novo DSA were analyzed at 2 years, the 5-year death-censored graft survival was similar between patients with C1q-nonbinding de novo DSA and those without de novo DSA, but was lower for patients with C1q-binding de novo DSA (P=0.003). When de novo DSA were analyzed at 2 and 5 years, the 10-year death-censored graft survival was lower for patients with C1q-nonbinding de novo DSA detected at both 2 and 5 years (P<0.001) and for patients with C1q-binding de novo DSA (P=0.002) than for patients without de novo DSA. These results were partially confirmed in two validation cohorts. In conclusion, C1q-binding de novo DSA are associated with graft loss occurring quickly after their appearance. However, the long-term persistence of C1q-nonbinding de novo DSA could lead to lower graft survival., (Copyright © 2016 by the American Society of Nephrology.)

Published
2016
Full Text
View/download PDF

19. Resistance mutations and CTL epitopes in archived HIV-1 DNA of patients on antiviral treatment: toward a new concept of vaccine.

Author

Papuchon J, Pinson P, Lazaro E, Reigadas S, Guidicelli G, Taupin JL, Neau D, and Fleury H

Subjects
AIDS Vaccines, Alleles, Anti-HIV Agents pharmacology, Anti-HIV Agents therapeutic use, Genes, MHC Class I, Genetic Variation, Genotype, HIV Infections drug therapy, HIV Infections prevention & control, HIV Infections virology, HIV-1 classification, Humans, Phylogeny, Viral Load, pol Gene Products, Human Immunodeficiency Virus genetics, Drug Resistance, Viral genetics, Epitopes, T-Lymphocyte immunology, HIV Infections immunology, HIV-1 genetics, HIV-1 immunology, Mutation, T-Lymphocytes, Cytotoxic immunology
Abstract

Eleven patients responding successfully to first-line antiretroviral therapy (ART) were investigated for proviral drug resistance mutations (DRMs) in RT by ultra-deep pyrosequencing (UDPS). After molecular typing of the class I alleles A and B, the CTL epitopes in the Gag, Nef and Pol regions of the provirus were sequenced and compared to the reference HXB2 HIV-1 epitopes. They were then matched with the HLA alleles with determination of theoretical affinity (TA). For 3 patients, the results could be compared with an RNA sample of the circulating virus at initiation of therapy. Five out of 11 patients exhibited DRMs by UDPS. The issue is whether a therapeutic switch is relevant in these patients by taking into account the identity of the archived resistance mutations. When the archived CTL epitopes were determined on the basis of the HLA alleles, different patterns were observed. Some epitopes were identical to those reported for the reference with the same TA, while others were mutated with a decrease in TA. In 2 cases, an epitope was observed as a combination of subpopulations at entry and was retrieved as a single population with lower TA at success. With regard to immunological stimulation and given the variability of the archived CTL epitopes, we propose a new concept of curative vaccine based on identification of HIV-1 CTL epitopes after prior sequencing of proviral DNA and matching with HLA class I alleles.

Published
2013
Full Text
View/download PDF

20. An atypical necrotic signal induced by immunosuppressive and anti-viral agents.

Author

Chaigne-Delalande B, Guidicelli G, Couzi L, and Legembre P

Subjects
Actins metabolism, Apoptosis, Autophagy, Cell Line, GTP Phosphohydrolases metabolism, Humans, IMP Dehydrogenase antagonists & inhibitors, IMP Dehydrogenase metabolism, Kidney Transplantation methods, Models, Biological, Mycophenolic Acid analogs & derivatives, Mycophenolic Acid pharmacology, Risk, cdc42 GTP-Binding Protein metabolism, Antiviral Agents pharmacology, Immunosuppressive Agents pharmacology, Necrosis pathology
Abstract

We recently demonstrated that the anti-viral agent ribavirin and the immunosuppressor mycophenolic acid (MPA) are both potent inducers of a necrotic signal. These two chemicals deplete the intracellular pool of guanosine triphosphate through the inhibition of inosine monophosphate dehydrogenase (IMPDH) activity. The cellular stress resulting from the GTP/GDP depletion leads to the activation of the small GTPase Cdc42 and the remodeling of actin, which are crucial events in the transmission of the MPA-mediated necrotic signal. Nevertheless, we observe for each tested cell (leukemic T and B-cell lines, activated PBLs) that a minor part of the cell population is killed through a caspase-dependent apoptotic signal. Blockade of the caspase activity eliminates the apoptotic cells, which are replaced by cells exhibiting autophagic features. In light of our findings, we assume that the newly characterized atypical cell death induced by MPA may account for the decreased risk of cancer occurrence observed in transplant recipients treated with mycophenolate mofetil (MMF) versus a non-MMF regimen.

Published
2009
Full Text
View/download PDF

21. The necrotic signal induced by mycophenolic acid overcomes apoptosis-resistance in tumor cells.

Author

Guidicelli G, Chaigne-Delalande B, Dilhuydy MS, Pinson B, Mahfouf W, Pasquet JM, Mahon FX, Pourquier P, Moreau JF, and Legembre P

Subjects
Blotting, Western, Cell Line, Cell Line, Tumor, Dose-Response Relationship, Drug, Green Fluorescent Proteins genetics, Green Fluorescent Proteins metabolism, Guanosine Diphosphate metabolism, Guanosine Triphosphate metabolism, Humans, IMP Dehydrogenase antagonists & inhibitors, IMP Dehydrogenase metabolism, Jurkat Cells, K562 Cells, Leukemia, Lymphocytic, Chronic, B-Cell blood, Leukemia, Lymphocytic, Chronic, B-Cell pathology, Lymphocytes metabolism, Lymphocytes pathology, Lymphocytes ultrastructure, Microscopy, Electron, Mutation, Necrosis chemically induced, RNA, Small Interfering genetics, Transfection, Tumor Cells, Cultured, cdc42 GTP-Binding Protein genetics, cdc42 GTP-Binding Protein metabolism, Apoptosis drug effects, Drug Resistance, Neoplasm, Mycophenolic Acid pharmacology, Signal Transduction drug effects
Abstract

Background: The amount of inosine monophosphate dehydrogenase (IMPDH), a pivotal enzyme for the biosynthesis of the guanosine tri-phosphate (GTP), is frequently increased in tumor cells. The anti-viral agent ribavirin and the immunosuppressant mycophenolic acid (MPA) are potent inhibitors of IMPDH. We recently showed that IMPDH inhibition led to a necrotic signal requiring the activation of Cdc42., Methodology/principal Findings: Herein, we strengthened the essential role played by this small GTPase in the necrotic signal by silencing Cdc42 and by the ectopic expression of a constitutive active mutant of Cdc42. Since resistance to apoptosis is an essential step for the tumorigenesis process, we next examined the effect of the MPA-mediated necrotic signal on different tumor cells demonstrating various mechanisms of resistance to apoptosis (Bcl2-, HSP70-, Lyn-, BCR-ABL-overexpressing cells). All tested cells remained sensitive to MPA-mediated necrotic signal. Furthermore, inhibition of IMPDH activity in Chronic Lymphocytic Leukemia cells was significantly more efficient at eliminating malignant cells than apoptotic inducers., Conclusions/significance: These findings indicate that necrosis and apoptosis are split signals that share few if any common hub of signaling. In addition, the necrotic signaling pathway induced by depletion of the cellular amount of GTP/GDP would be of great interest to eliminate apoptotic-resistant tumor cells.

Published
2009
Full Text
View/download PDF

Catalog

Books, media, physical & digital resources
See catalog results