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2. First prospective report on immune tolerance in poor risk haemophilia A inhibitor patients with a single factor VIII/von Willebrand factor concentrate in an observational immune tolerance induction study

Author

Kreuz, W., Escuriola Ettingshausen, C., Vdovin, V., Zozulya, N., Plyushch, O., Svirin, P., Andreeva, T., Bubanská, E., Campos, M., Benedik-Dolničar, M., Jiménez-Yuste, V., Kitanovski, L., Klukowska, A., Momot, A., Osmulskaya, N., Prieto, M., Šalek, S. Z., Velasco, F., Pavlova, A., Oldenburg, J., Knaub, S., Jansen, M., Belyanskaya, L., and Walter, O.

Published
2016
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6. Immunogenicity, efficacy and safety of Nuwiq®(human-cl rhFVIII) in previously untreated patients with severe haemophilia A-Interim results from the NuProtect Study

Author

Liesner, R. J., primary, Abashidze, M., additional, Aleinikova, O., additional, Altisent, C., additional, Belletrutti, M. J., additional, Borel-Derlon, A., additional, Carcao, M., additional, Chambost, H., additional, Chan, A. K. C., additional, Dubey, L., additional, Ducore, J., additional, Fouzia, N. A., additional, Gattens, M., additional, Gruel, Y., additional, Guillet, B., additional, Kavardakova, N., additional, El Khorassani, M., additional, Klukowska, A., additional, Lambert, T., additional, Lohade, S., additional, Sigaud, M., additional, Turea, V., additional, Wu, J. K. M., additional, Vdovin, V., additional, Pavlova, A., additional, Jansen, M., additional, Belyanskaya, L., additional, Walter, O., additional, Knaub, S., additional, and Neufeld, E. J., additional

Published
2017
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8. First prospective report on immune tolerance in poor risk haemophilia A inhibitor patients with a single factor VIII/von Willebrand factor concentrate in an observational immune tolerance induction study

Author

Kreuz, W, Escuriola Ettingshausen, C, Vdovin, V, Zozulya, N, Plyushch, O, Svirin, P, Andreeva, T, Bubanská, E, Campos, M, Benedik-Dolničar, M, Jiménez-Yuste, V, Kitanovski, L, Klukowska, A, Momot, A, Osmulskaya, N, Prieto, M, Šalek, S Z, Velasco, F, Pavlova, A, Oldenburg, J, Knaub, S, Jansen, M, Belyanskaya, L, Walter, O, ObsITI study group, and ObsITI committee

Subjects
Male, poor prognosis for immune tolerance induction, 030204 cardiovascular system & hematology, Immune tolerance, 0302 clinical medicine, Risk Factors, factor VIII/von Willebrand factor concentrate, Prospective Studies, Young adult, Prospective cohort study, Child, Genetics (clinical), immune tolerance induction, biology, Hematology, General Medicine, Prognosis, Drug Combinations, Child, Preschool, factor VIII inhibitors, Female, Bonn protocol, Safety, Adult, medicine.medical_specialty, Adolescent, Haemophilia A, haemophilia A, Hemorrhage, Hemophilia A, 03 medical and health sciences, Young Adult, Von Willebrand factor, Internal medicine, von Willebrand Factor, medicine, Immune Tolerance, Humans, Risk factor, Factor VIII, business.industry, Infant, Interim analysis, medicine.disease, Antibodies, Neutralizing, Surgery, biology.protein, Observational study, business, 030215 immunology
Abstract

Introduction/background Development of neutralizing inhibitors against factor VIII (FVIII) is a major complication of haemophilia A treatment. Aim The ongoing, international, open-label, uncontrolled, observational immune tolerance induction (ObsITI) study evaluates ITI, the standard of care in patients with inhibitors. Patients/methods Forty-eight prospective patients in this interim analysis received a single plasma-derived, von Willebrand factor-stabilized, FVIII concentrate (pdFVIII/VWF) for ITI. According to recommended Bonn protocol, ‘low responders’ at ITI start (2 years since inhibitor diagnosis, inhibitor titre ≥10 BU at the start of ITI, or prior ITI failure). Nonetheless, 34 patients (70.8%) achieved complete success, 3 (6.3%) partial success, 1 (2.1%) partial response; ITI failed in 10 patients (20.8%), all with poor prognosis factors. All six low responders achieved complete success. ITI outcome was significantly associated with inhibitor titre level at ITI start (P = 0.0068), number of poor prognosis factors for ITI success (P = 0.0187), monthly bleeding rate during ITI (P = 0.0005) and peak inhibitor titre during ITI (P = 0.0007). Twenty-two of 35 high responder patients (62.9%) with ≥1 poor prognosis factor achieved complete success. Conclusion Treatment with a single pdFVIII/VWF concentrate, mainly according to the Bonn protocol, resulted in a high ITI success rate in haemophilia A patients with inhibitors and poor prognosis for ITI success.

Published
2015

9. Low incidence of factor VIII inhibitors in previously untreated patients with severe haemophilia A treated with octanate®: Final report from a prospective study.

Author

Klukowska, A., Laguna, P., Komrska, V., Vdovin, V., Pavlova, A., Jansen, M., Lowndes, S., Belyanskaya, L., and Walter, O.

Subjects
HEMOPHILIA, PATIENTS, BLOOD plasma, BLOOD coagulation, MORTALITY
Abstract

Introduction: Octanate® is a human, plasma‐derived, von Willebrand factor‐stabilized coagulation factor VIII (FVIII) concentrate with demonstrated haemostatic efficacy in previously treated patients with haemophilia A. Aim: This prospective, open‐label study aimed to assess the immunogenicity of octanate® in previously untreated patients (PUPs). Methods: The study monitored development of FVIII inhibitors in 51 PUPs. Tolerability, viral safety, FVIII recovery and efficacy of octanate® for the prevention and treatment of bleeds and in surgical procedures were also assessed. Results: Five (9.8%) of the 51 patients developed inhibitors during the study, 4 of which (7.8%) were high titre. Three inhibitor cases (5.9%) were considered clinically relevant; 2 were transient inhibitors that disappeared during regular octanate® treatment without a change in dose or treatment frequency. Amongst 45 patients with FVIII:C <1% at baseline and who received ≥20 exposure days (EDs) or had <20 EDs but developed an inhibitor, inhibitor incidence was 11.1% (6.7% clinically relevant). All clinically relevant inhibitors developed within 20 EDs of on‐demand treatment. No inhibitors developed in PUPs receiving prophylaxis. All patients who developed inhibitors had either intron 22 inversions or large deletions. Irrespective of the reason for administration, haemostatic efficacy was rated as “excellent” in 99.6% of all infusions (4700 of 4717 infusions), and no complications were reported in 23 surgical procedures. Mean incremental in vivo recovery was 2.0%/IU/kg (±0.7) and 1.9%/IU/kg (±0.5) for the first and second assessments, respectively. Tolerability was rated “very good” in 99.9% of infusions. Conclusion: In PUPs with severe haemophilia A, octanate® demonstrated haemostatic efficacy with a low rate of inhibitor development. [ABSTRACT FROM AUTHOR]

Published
2018
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10. Immunogenicity, efficacy and safety of Nuwiq® (human‐cl rhFVIII) in previously untreated patients with severe haemophilia A—Interim results from the NuProtect Study.

Author

Liesner, R. J., Dubey, L., Ducore, J., Fouzia, N. A., Gattens, M., Gruel, Y., Guillet, B., Kavardakova, N., El Khorassani, M., Klukowska, A., Lambert, T., Abashidze, M., Lohade, S., Sigaud, M., Turea, V., Wu, J. K. M., Vdovin, V., Pavlova, A., Jansen, M., and Belyanskaya, L.

Subjects
RECOMBINANT drugs, HUMAN cell culture, PATIENTS, IMMUNOGLOBULINS, ETHNICITY
Abstract

Introduction: Nuwiq® (Human‐cl rhFVIII) is a fourth generation recombinant FVIII, produced in a human cell line, without chemical modification or protein fusion. No inhibitors developed in studies with Nuwiq® in 201 previously treated patients with haemophilia A (HA). The immunogenicity, efficacy and safety of Nuwiq® in previously untreated patients (PUPs) with severe HA are being assessed in the ongoing NuProtect study. Methods: The study, conducted across 38 centres worldwide, is evaluating 110 true PUPs of all ages and ethnicities enrolled for study up to 100 exposure days (EDs) or 5 years maximum. The primary objective is to assess the immunogenicity of Nuwiq® (inhibitor activity ≥0.6 BU) using the Nijmegen‐modified Bethesda assay at a central laboratory. Results: Data for 66 PUPs with ≥20 EDs from a preplanned interim analysis were analysed. High‐titre (HT) inhibitors developed in 8 of 66 patients after a median of 11.5 EDs (range 6‐24). Five patients developed low‐titre inhibitors (4 transient). The cumulative incidence (95% confidence interval) was 12.8% (4.5%, 21.2%) for HT inhibitors and 20.8% (10.7%, 31.0%) for all inhibitors. During inhibitor‐free periods, median annualized bleeding rates during prophylaxis were 0 for spontaneous bleeds and 2.40 for all bleeds. Efficacy was rated as “excellent” or “good” in treating 91.8% of bleeds. Efficacy of surgical prophylaxis was “excellent” or “good” for 8 (89%) procedures and “moderate” for 1 (11%). No tolerability concerns were evident. Conclusion: These interim data show a cumulative incidence of 12.8% for HT inhibitors and convincing efficacy and tolerability in PUPs treated with Nuwiq®. [ABSTRACT FROM AUTHOR]

Published
2018
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11. PK-guided personalized prophylaxis with Nuwiq® (human-cl rh FVIII) in adults with severe haemophilia A.

Author

Lissitchkov, T., Rusen, L., Georgiev, P., Windyga, J., Klamroth, R., Gercheva, L., Nemes, L., Tiede, A., Bichler, J., Knaub, S., Belyanskaya, L., Walter, O., and Pasi, K. J.

Subjects
HEMOPHILIA treatment, BLOOD coagulation factor VIII, BLOOD coagulation factors, PHARMACOKINETICS, HEMORRHAGE, HEMORRHAGIC diseases, THERAPEUTICS
Abstract

Introduction Nuwiq® (human-cl rh FVIII) is a 4th generation recombinant human FVIII, without chemical modification or protein fusion, produced in a human cell-line. Aims/Methods This study (NuPreviq) was a prospective, open-label, multicentre, phase IIIb study of the efficacy and safety of personalized prophylaxis with Nuwiq® in 66 previously treated adults with severe haemophilia A. NuPreviq had three phases: (i) a 72-h pharmacokinetic ( PK) phase; (ii) a 1-3 month standard prophylaxis phase; and (iii) a 6-month personalized prophylaxis phase. The personalized prophylaxis regimen was based on individual PK modelling for each patient according to whether their PK profile most closely fitted a two- or one-compartment model (NuPreviq approach). In cases of uncertainty, a noncompartment model was applied. Results The median dosing interval during personalized prophylaxis was 3.5 days, with 57% of patients on ≤2 weekly dosing. Mean annualized bleeding rates during personalized prophylaxis were 1.45 (median [interquartile range, IQR]: 0 [0, 1.9]) for all bleeds, 0.79 (median [ IQR]: 0 [0, 0]) for spontaneous bleeds, and 0.91 (median [ IQR]: 0 [0, 0]) for joint bleeds. During personalized prophylaxis, 83.1% of patients were spontaneous bleed-free. Compared with standard prophylaxis, median weekly prophylaxis dose was reduced by 7.2% from 100.0 to 92.8 IU kg−1 during the last 2 months of personalized prophylaxis. There were no FVIII inhibitors or treatment-related serious or severe adverse events. Conclusion PK-guided personalized prophylaxis with Nuwiq® provided bleeding protection and enabled the dosing interval to be extended to twice weekly or less in many patients and an overall dose reduction. [ABSTRACT FROM AUTHOR]

Published
2017
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12. ΔNp73 antisense activates PUMA and induces apoptosis in neuroblastoma cells

Author

Simões-Wüst, Ana Paula, Sigrist, B, Belyanskaya, L, Hopkins Donaldson, S, Stahel, R A, Zangemeister-Wittke, U, University of Zurich, and Zangemeister-Wittke, U

Subjects
2728 Neurology (clinical), 2808 Neurology, 570 Life sciences, biology, 2730 Oncology, 1306 Cancer Research, 142-005 142-005
Abstract

The p73 gene codes for various different protein isoforms. They include proteins expressed under the control of the P1 promoter that contain a transactivation domain and are similar in function to p53 (TAp73 isoforms), as well as proteins regulated by the P2 promoter that lack this domain and function as dominant negative inhibitors of TAp73 and p53 (ΔNp73 isoforms). Whereas TAp73 functions as a tumor suppressor with pro-apoptotic function, ΔNp73 is likely to prevent the induction of apoptosis in tumor cells and to participate in oncogenesis. Here we used a loss-of-function strategy to assess the role of ΔNp73 in SH-SY5Y neuroblastoma cells. An antisense oligonucleotide designed to target ΔNp73 mRNA, but not TAp73, was used to effectively downregulate this transcript. ΔNp73 downregulation was accompanied by increased levels of the pro-apoptotic BH3 family member PUMA at the mRNA and protein level, and by conformational activation of BAX which translocated to mitochondria. These ΔNp73 antisense-mediated alterations led to the induction of apoptosis as detected by decreased cell viability, augmented DNA fragmentation and increased caspase-3 activity in cell lysates. Our results demonstrate the cytoprotective role of ΔNp73 in neuroblastoma and suggest its use as a target for molecular intervention therapy

Published
2005
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Author

Simões-Wüst, Ana Paula; https://orcid.org/0000-0002-4489-0952, Sigrist, B, Belyanskaya, L, Hopkins Donaldson, S, Stahel, R A, Zangemeister-Wittke, U, Simões-Wüst, Ana Paula; https://orcid.org/0000-0002-4489-0952, Sigrist, B, Belyanskaya, L, Hopkins Donaldson, S, Stahel, R A, and Zangemeister-Wittke, U

Published
2005

19. Simoctocog alfa (Nuwiq®) in previously untreated patients with severe haemophilia A-Final efficacy and safety results from the NuProtect study.

Author

Mathias M, Abraham A, Belletrutti MJ, Carcao M, Carvalho M, Chambost H, Chan AKC, Dubey L, Ducore J, Gattens M, Gresele P, Gruel Y, Guillet B, Jiménez-Yuste V, Kitanovski L, Klukowska A, Lohade S, Mancuso ME, Oldenburg J, Pollio B, Sigaud M, Vilchevska K, Wu JKM, Jansen M, Belyanskaya L, Walter O, Knaub S, and Neufeld EJ

Subjects
Humans, Factor VIII adverse effects, Factor VIII genetics, Hemorrhage prevention & control, Hemorrhage chemically induced, Treatment Outcome, Hemophilia A drug therapy, Hemophilia A surgery
Abstract

Introduction: Simoctocog alfa (Nuwiq®) is a 4th generation recombinant FVIII with proven efficacy for the prevention and treatment of bleeding episodes (BEs) in previously treated patients with severe haemophilia A. The NuProtect study assessed the immunogenicity, efficacy and safety of simoctocog alfa in 108 previously untreated patients (PUPs). The incidence of high-titre inhibitors was 16.2% and no patients with non-null F8 mutations developed inhibitors., Aim: To report the efficacy and safety results from the NuProtect study., Methods: PUPs received simoctocog alfa for prophylaxis, treatment of BEs, or as surgical prophylaxis. The efficacy of prophylaxis (during inhibitor-free periods) was assessed using annualised bleeding rates (ABRs). The efficacy in treating BEs and in surgical prophylaxis was assessed using a 4-point scale. Adverse events were recorded throughout the study., Results: Of 108 PUPs treated with simoctocog alfa, 103 received at least one prophylactic dose and 50 received continuous prophylaxis for at least 24 weeks. In patients on continuous prophylaxis, the median ABR was 0 (mean 0.5) for spontaneous BEs and 2.5 (mean 3.6) for all BEs. In 85 patients who had BEs, efficacy of BE treatment was excellent or good for 92.9% (747/804) of rated BEs; 92.3% of BEs were treated with 1 or 2 infusions. The efficacy of surgical prophylaxis was excellent or good for 94.7% (18/19) of rated procedures. There were no safety concerns and no thromboembolic events., Conclusion: Simoctocog alfa was efficacious and well tolerated as prophylaxis, surgical prophylaxis and for the treatment of BEs in PUPs with severe haemophilia A., (© 2023 The Authors. European Journal of Haematology published by John Wiley & Sons Ltd.)

Published
2023
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20. Immune Tolerance Induction (ITI) with a pdFVIII/VWF Concentrate (octanate) in 100 Patients in the Observational ITI (ObsITI) Study.

Author

Escuriola Ettingshausen C, Vdovin V, Zozulya N, Svirin P, Andreeva T, Benedik-Dolničar M, Jiménez-Yuste V, Kitanovski L, Zupancic-Šalek S, Pavlova A, Bátorová A, Montaño Mejía C, Abdilova G, Knaub S, Jansen M, Lowndes S, Belyanskaya L, Walter O, and Oldenburg J

Abstract

Background  Immune tolerance induction (ITI) with repeated factor VIII (FVIII) administration is the only strategy proven to eradicate inhibitors. The observational ITI study is evaluating ITI with a range of FVIII products. Methods  This subgroup analysis reports prospective interim data for patients treated with a plasma-derived, von Willebrand factor-stabilized FVIII concentrate (pdFVIII/VWF, octanate). Complete success (CS) of ITI required achievement of three criteria: inhibitor titer < 0.6 BU/mL; FVIII recovery ≥ 66%; FVIII half-life ≥6 hours. Partial success (PS) required achievement of two criteria and partial response (PR) one. ITI success was defined as CS or PS. Data were analyzed for patients who achieved CS, had 36 months' observation, or failed ITI. Results  One-hundred prospectively enrolled patients were included in the analysis; 91 had poor prognosis factors for ITI success. The mean (standard deviation) daily ITI dose was 116.4 (61.1) IU FVIII/kg in 14 low responders (< 5 BU/mL) and 173.7 (112.0) IU FVIII/kg in 86 high responders (≥ 5 BU/mL). Inhibitor titers < 0.6 BU/mL were achieved in 71% of patients in a median of 4.01 months, accompanied by a 93% reduction in bleeding rate. ITI success was achieved by 70% of patients and 56 of 72 (78%) primary (first-line) ITI patients. PR was achieved by 5 patients; ITI failed in 25 patients. PS and CS were achieved in a median of 5.55 and 11.25 months, respectively. Conclusions  ITI with pdFVIII/VWF led to rapid eradication of FVIII inhibitors, normalization of FVIII pharmacokinetics in the majority of patients, and a significant reduction in bleeding rates., Competing Interests: Conflict of Interest C. Escuriola Ettingshausen has acted as a consultant and received speaker's fees and/or research funding from the following companies: Bayer, Biomarin, Biotest, Chugai, CSL Behring, Grifols, Kedrion, Novo Nordisk Octapharma, Roche, Swedish Orphan Biovitrum and Takeda. V. Vdovin has participated in studies sponsored by Bayer, Generium, Novo Nordisk, Octapharma and Roche. N. Zozulya has acted as a consultant and received speaker's fees and/or research funding from the following companies: CSL Behring, Generium, Novo Nordisk, Octapharma, Roche, SOBI and Takeda. T. Andreeva has received speaker's fees and/or research funding from Bayer, Baxalta, Biomarin, Catalis, CSL Behring, Generium, Grifols, Novo Nordisk, Octapharma and Roche, and has consulted for CSL Behring, Generium, Novo Nordisk, Octapharma, Roche, Shire and Swedish Orphan Biovitrum. V Jiménez-Yuste has acted as a consultant and/or received speaker's fees and/or research funding from the following companies: Bayer, Grifols, Novo Nordisk, Octapharma, Pfizer, Swedish Orphan Biovitrum and Takeda. L. Kitanovski has acted as a consultant and received speaker's fees from the following companies: Bayer, Novo Nordisk, Octapharma, Roche, Takeda and Swedish Orphan Biovitrum. S. Zupančić Šalek has acted as a consultant and/or received speaker's fees and/or research funding from following companies: Bayer, Novo Nordisk, Octapharma, Roche, Swedish Orphan Biovitrum and Takeda. A. Pavlova has participated in studies sponsored by Octapharma AG. A. Bátorová has acted as a consultant and/or received speaker's fees and/or research funding from the following companies: Grifols, Novo Nordisk, Octapharma, Pfizer, Swedish Orphan Biovitrum and Takeda. C. Montaño Mejía has received speaker's fees from Octapharma and Roche; travel support from CSL Behring, Grifols, Novo Nordisk, Octapharma, Pfizer, Roche and Takeda. J. Oldenburg has acted as a consultant and/or received speaker's fees, honoraria and research funding from the following companies: Bayer, Biogen Idec, Biotest, CSL Behring, Grifols, Novo Nordisk, Octapharma, Pfizer, Swedish Orphan Biovitrum and Takeda. S. Knaub, S. Lowndes, L. Belyanskaya and O. Walter are employees of Octapharma AG. M. Jansen is an employee of Octapharma Pharmazeutika Produktionsges.mbH. P. Svirin, M. Benedik-Dolničar and G. Abdilova stated that they had no conflicts of interest to declare., (The Author(s). This is an open access article published by Thieme under the terms of the Creative Commons Attribution License, permitting unrestricted use, distribution, and reproduction so long as the original work is properly cited. ( https://creativecommons.org/licenses/by/4.0/ ).)

Published
2022
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21. Simoctocog Alfa (Nuwiq) in Previously Untreated Patients with Severe Haemophilia A: Final Results of the NuProtect Study.

Author

Liesner RJ, Abraham A, Altisent C, Belletrutti MJ, Carcao M, Carvalho M, Chambost H, Chan AKC, Dubey L, Ducore J, Gattens M, Gresele P, Gruel Y, Guillet B, Jimenez-Yuste V, Kitanovski L, Klukowska A, Lohade S, Mancuso ME, Oldenburg J, Pavlova A, Pollio B, Sigaud M, Vdovin V, Vilchevska K, Wu JKM, Jansen M, Belyanskaya L, Walter O, Knaub S, and Neufeld EJ

Subjects
Coagulants immunology, Factor VIII genetics, Factor VIII immunology, Genetic Predisposition to Disease, Hemophilia A blood, Hemophilia A genetics, Hemorrhage blood, Hemorrhage diagnosis, Hemorrhage genetics, Humans, Infant, Male, Mutation, Prospective Studies, Recombinant Proteins immunology, Recombinant Proteins therapeutic use, Severity of Illness Index, Time Factors, Treatment Outcome, Antibodies blood, Coagulants therapeutic use, Factor VIII therapeutic use, Hemophilia A drug therapy, Hemorrhage prevention & control
Abstract

Introduction:  FVIII inhibitor development is the most serious contemporary treatment complication in haemophilia A, particularly in previously untreated patients (PUPs). No inhibitors developed in clinical trials in previously treated patients treated with simoctocog alfa (Nuwiq), a fourth-generation recombinant FVIII produced in a human cell line., Methods:  The NuProtect study investigated the immunogenicity of simoctocog alfa in PUPs. NuProtect was a prospective, multinational, open-label, non-controlled, phase III study. PUPs with severe haemophilia A (FVIII:C <1%) of any age and ethnicity were treated with simoctocog alfa for 100 exposure days or a maximum of 5 years. Patients were true PUPs without prior exposure to FVIII concentrates or blood components. Inhibitor titres were measured with the Nijmegen-modified Bethesda assay; cut-off for positivity was 0.6 BU mL -1 (≥0.6 to <5 low-titre, ≥5 high titre)., Results:  A total of 108 PUPs with a median age at first treatment of 12.0 months (interquartile range: 8.0-23.5) were treated with simoctocog alfa. F8 mutation type was known for 102 patients (94.4%) of whom 90 (88.2%) had null F8 mutations and 12 (11.8%) had non-null mutations. Of 105 PUPs evaluable for inhibitor development, 28 (26.7%) developed inhibitors; 17 high titre (16.2%) and 11 low titre (10.5%). No PUPs with non-null F8 mutations developed inhibitors., Conclusion:  In the NuProtect study, the rate of inhibitor development in PUPs with severe haemophilia A treated with simoctocog alfa was lower than the rate reported for hamster-cell-derived recombinant factor VIII products in other recent clinical trials. No inhibitors were reported in PUPs with non-null F8 mutations., Competing Interests: R. J. Liesner, A. Abraham, C. Altisent, M. J. Belletrutti, M. Carcao, M. Carvalho, H. Chambost, A. K. C. Chan, L. Dubey, J. Ducore, M. Gattens, P. Gresele, Y. Gruel, B. Guillet, V. J. Yuste, L. Kitanovski, A. Klukowska, S. Lohade, J. Oldenburg, A. Pavlova, B. Pollio, M. Sigaud, V. Vdovin, K. Vilchevska, J. K. M. Wu and E. J. Neufeld were clinical study investigators for the NuProtect Study (Octapharma-sponsored). R. J. Liesner has received grants/research support from Octapharma, Bayer, Baxalta, Novo Nordisk and Roche, has acted as a consultant for Bayer and Baxalta, and has participated in speaker bureaus for Novo Nordisk, Octapharma and SOBI. A. Abraham has received grants/research support from Novo Nordisk and Roche, and has received support for attending scientific meetings from Novo Nordisk. C. Altisent has been a member of advisory boards and/or speaker bureaus for Baxalta (Shire), Bayer, CSL Behring, Grifols, Octapharma, Novo Nordisk, Pfizer, Roche and SOBI. M. J. Belletrutti has received research support from Octapharma, has acted as a consultant for Roche Canada, Sanofi and Takeda Canada, and has participated in speaker bureaus for Octapharma Canada and Takeda Canada. M. Carcao received research support/grants from Bayer, Novo Nordisk, Pfizer, Sanofi and Takeda, and has participated in speaker bureaus for Bayer, CSL Behring, Grifols, LFB, Novo Nordisk, Octapharma, Pfizer, Roche, Sanofi and Takeda. M. Carvalho has been an investigator on clinical trials sponsored by CSL Behring, Novo Nordisk, Octapharma and Roche, and has received support for attending scientific meetings and honoraria (speaker fees/consultant in advisory boards) for Bayer, Baxalta (Shire), CSL Behring, Novo Nordisk, Octapharma, Pfizer, Siemens, SOBI and Stago. H. Chambost has received research support from CSL Behring, LFB, Novo Nordisk, Octapharma, Roche/Chugaï, Shire/Takeda, SOBI; honoraria from Bayer, LFB, Octapharma, Pfizer, Roche and SOBI. A. K. C. Chan has been an investigator on clinical trials sponsored by Bayer, Biogen, CSL, Novo Nordisk, Octapharma and Shire and has received grants/research support from Bayer and Pfizer, and has participated in advisory boards for Bayer, Biogen, BioMarin, Novo Nordisk and Octapharma. J. Ducore has been an investigator on clinical trials sponsored by Octapharma, CSL Behring, OPKO Biologics, Bayer, Baxalta (Shire), Sparks Therapeutics, Biogen, Pfizer, Genentech (Roche), LFB and RevBio, has provided consultancy services to Octapharma, Bayer, Baxalta (Shire), Biogen and LFB, and is a speaker for Bayer. Y. Gruel has received support for attending scientific meetings and honoraria (speaker fees/consultant in advisory boards) from Baxalta (Shire), Bayer Healthcare, CSL Behring, LFB, Novo Nordisk, Octapharma, Pfizer, Roche and SOBI, has been an investigator in studies sponsored by Biogen, LFB and SOBI, and has received research support from CSL Behring, LFB and Octapharma. B. Guillet has been an investigator on clinical trials, or has received honoraria for speaking/consulting or funds for research from Bayer, CSL Behring, LFB, Novo Nordisk, Octapharma, Roche, SOBI and Takeda/Shire. V. J. Yuste has received reimbursement for attending symposia/congresses and/or honoraria for speaking and/or honoraria for consulting, and/or funds for research from Shire, Bayer, CSL Behring, Grifols, Novo Nordisk, SOBI, Octapharma and Pfizer. A. Klukowska has received personal fees from CSL Behring, Novo Nordisk, Octapharma, Pfizer, Roche, Shire and SOBI. M. E. Mancuso has received speaker and/or consultancy fees from Bayer Healthcare, CSL Behring, Takeda, Octapharma, Roche, Pfizer, Kedrion, Grifols, Novo Nordisk and SOBI. J. Oldenburg has received reimbursement for attending symposia/congresses or honoraria for speaking or honoraria for consulting, or funds for research from Bayer, Biogen Idec, Biotest, Chugai, CSL Behring, Grifols, Novo Nordisk, Octapharma, Pfizer, Roche, Shire and SOBI. A. Pavlova has participated in studies sponsored by Octapharma AG. B. Pollio has received support for attending scientific meetings and honoraria (speaker fees/consultant in advisory boards) from Baxalta (Shire), Bayer Healthcare, CSL Behring, Kedrion, Novo Nordisk, Octapharma, Pfizer and SOBI. M. Sigaud has received reimbursement for attending symposia/congresses, honoraria for speaking or for consulting from Biomarin, CSL Behring, Novo Nordisk, Octapharma, Roche and Shire/Takeda. J. K. M. Wu received funding to attend meetings and has participated in Octapharma-funded clinical research. M. Jansen is a full-time employee of Octapharma GmbH, Vienna, Austria. L. Belyanskaya, O. Walter and S. Knaub are employees of Octapharma AG, Lachen, Switzerland. E. J. Neufeld has received honoraria and participated in advisory boards for Octapharma. He has been a consultant for Genentech and Pfizer, and has participated in advisory boards for Novo Nordisk, Kedrion, Genentech, Baxalta/Shire (now Takeda), Novartis and CSL-Behring during the course of the NuProtect study. He has served on data monitoring committees for Bayer, Acceleron Pharma and ApoPharma (now Chiesi), and received research funding from the American Thrombosis and Hemostasis Network (ATHN). L. Dubey, M. Gattens, P. Gresele, L. Kitanovski, S. Lohade, V. Vdovin and K. Vilchevska declare no competing financial interests., (The Author(s). This is an open access article published by Thieme under the terms of the Creative Commons Attribution License, permitting unrestricted use, distribution, and reproduction so long as the original work is properly cited. (https://creativecommons.org/licenses/by/4.0/).)

Published
2021
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22. Estimation of Nuwiq ® (simoctocog alfa) activity using one-stage and chromogenic assays-Results from an international comparative field study.

Author

Tiefenbacher S, Albisetti M, Baker P, Kappert G, Kitchen S, Kremer Hovinga JA, Pouplard C, Scholz U, Ternisien C, Borgvall C, Vicente T, Belyanskaya L, Walter O, and Oldenburg J

Subjects
Humans, Surveys and Questionnaires, Clinical Laboratory Techniques methods, Factor VIII analysis, Internationality, Recombinant Proteins analysis
Abstract

Background: Accurate determination of coagulation factor VIII activity (FVIII:C) is essential for effective and safe FVIII replacement therapy., Fviii: C can be measured by one-stage and chromogenic substrate assays (OSAs and CSAs, respectively); however, there is significant interlaboratory and interassay variability., Aims: This international comparative field study characterized the behaviour of OSAs and CSAs used in routine laboratory practice to measure the activity of Nuwiq ® (human-cl rhFVIII, simoctocog alfa), a fourth-generation recombinant human FVIII produced in a human cell line., Methods: FVIII-deficient plasma was spiked with Nuwiq ® or Advate ® at 1, 5, 30 and 100 international units (IU)/dL. Participating laboratories analysed the samples using their routine procedures and equipment. Accuracy, inter- and intralaboratory variation, CSA:OSA ratio and the impact of different OSA and CSA reagents were assessed., Results: Forty-nine laboratories from 9 countries provided results. Mean absolute FVIII:C was comparable for both products at all concentrations with both OSA and CSA, with interproduct ratios (Nuwiq ® :Advate ® ) of 1.02-1.13. Mean recoveries ranged from 97% to 191% for Nuwiq ® , and from 93% to 172% for Advate ® , with higher recoveries at lower concentrations. Subgroup analyses by OSA and CSA reagents showed minor variations depending on reagents, but no marked differences between the two products. CSA:OSA ratios based on overall means ranged from 0.99 to 1.17 for Nuwiq ® and from 1.01 to 1.17 for Advate ® ., Conclusions: Both OSAs and CSAs are suitable for the measurement of FVIII:C of Nuwiq ® in routine laboratory practice, without the need for a product-specific reference standard., (© 2019 The Authors. Haemophilia Published by John Wiley & Sons Ltd.)

Published
2019
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23. Efficacy and safety of simoctocog alfa (Nuwiq®) in patients with severe hemophilia A: a review of clinical trial data from the GENA program.

Author

Lissitchkov T, Klukowska A, Pasi J, Kessler CM, Klamroth R, Liesner RJ, Belyanskaya L, Walter O, Knaub S, Bichler J, Jansen M, and Oldenburg J

Abstract

Simoctocog alfa (human-cl rhFVIII, Nuwiq®) is a 4th generation recombinant FVIII (rFVIII), without chemical modification or fusion with any other protein/fragment. Nuwiq® is produced in a human embryonic kidney cell line (HEK293F), which ensures human-specific post-translational protein processing. Nuwiq® was evaluated in seven prospective clinical studies in 201 adult and pediatric previously treated patients (PTPs) with severe hemophilia A. The NuProtect study in 110 previously untreated patients (PUPs) is ongoing. The mean half-life of Nuwiq® was 15.1-17.1 h in PTP studies with adults and adolescents, and 12.5 h in children aged 2-12 years. Clinical trials in PTPs demonstrated the efficacy and safety of Nuwiq® in the prevention and treatment of bleeds and as surgical prophylaxis. In the NuPreviq study of pharmacokinetic (PK)-guided personalized prophylaxis in 66 adult PTPs, 83% of patients had no spontaneous bleeds during 6 months of personalized prophylaxis and 57% were treated ⩽2 per week. No FVIII inhibitors were detected in PTPs after treatment with 43,267 injections and >80 million IU of Nuwiq®. Interim data for 66 PUPs with ⩾20 exposure days to Nuwiq® in NuProtect demonstrated a low cumulative high-titer inhibitor rate of 12.8% [actual incidence 12.1% (8/66)] and convincing efficacy and safety., Competing Interests: Conflict of interest statement: T. Lissitchkov reports grants and/or personal fees from Bayer, Novo Nordisk, Octapharma, Shire and Swedish Orphan Biovitrum. A. Klukowska reports personal fees from Novo Nordisk, Octapharma, Pfizer, Shire and Swedish Orphan Biovitrum. J. Pasi reports grants, personal fees and/or nonfinancial support from Alnylam, Bayer, Biomarin, Bioverativ, Catalyst Bio, Novo Nordisk, Octapharma, Pfizer, Shire and Swedish Orphan Biovitrum. C. M. Kessler reports grants and personal fees from Baxalta, Bayer, Biogen, Grifols, Novo Nordisk, Octapharma, Pfizer and Roche. R. Klamroth reports grants and personal fees from Bayer, Biotest, CSL Behring, Novo Nordisk, Octapharma, Shire and Swedish Orphan Biovitrum. R. Liesner reports grants and personal fees from Baxalta, Bayer, Novo Nordisk, Octapharma, Roche and Swedish Orphan Biovitrum. J. Oldenburg has received reimbursement for attending symposia/congresses and/or honoraria for speaking and/or honoraria for consulting, and/or funds for research from Bayer, Biogen Idec, Biotest, Chugai, CSL Behring, Grifols, Novo Nordisk, Octapharma, Pfizer, Roche, Shire and Swedish Orphan Biovitrum. L. Belyanskaya, O. Walter, S. Knaub, J. Bichler and M. Jansen are employees of Octapharma.

Published
2019
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24. Development, upscaling and validation of the purification process for human-cl rhFVIII (Nuwiq®), a new generation recombinant factor VIII produced in a human cell-line.

Author

Winge S, Yderland L, Kannicht C, Hermans P, Adema S, Schmidt T, Gilljam G, Linhult M, Tiemeyer M, Belyanskaya L, and Walter O

Subjects
Chromatography, Liquid methods, Chromatography, Liquid standards, Electrophoresis, Polyacrylamide Gel, Factor VIII chemistry, HEK293 Cells, Humans, Recombinant Proteins chemistry, Reproducibility of Results, Factor VIII isolation & purification, Recombinant Proteins isolation & purification
Abstract

Introduction: Human-cl rhFVIII (Nuwiq®), a new generation recombinant factor VIII (rFVIII), is the first rFVIII produced in a human cell-line approved by the European Medicines Agency., Aims: To describe the development, upscaling and process validation for industrial-scale human-cl rhFVIII purification., Methods and Results: The purification process involves one centrifugation, two filtration, five chromatography columns and two dedicated pathogen clearance steps (solvent/detergent treatment and 20 nm nanofiltration). The key purification step uses an affinity resin (VIIISelect) with high specificity for FVIII, removing essentially all host-cell proteins with >80% product recovery. The production-scale multi-step purification process efficiently removes process- and product-related impurities and results in a high-purity rhFVIII product, with an overall yield of ∼50%. Specific activity of the final product was >9000 IU/mg, and the ratio between active FVIII and total FVIII protein present was >0.9. The entire production process is free of animal-derived products. Leaching of potential harmful compounds from chromatography resins and all pathogens tested were below the limit of quantification in the final product., Conclusions: Human-cl rhFVIII can be produced at 500 L bioreactor scale, maintaining high purity and recoveries. The innovative purification process ensures a high-purity and high-quality human-cl rhFVIII product with a high pathogen safety margin., (Copyright © 2015 The Authors. Published by Elsevier Inc. All rights reserved.)

Published
2015
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25. Effects of carbon nanotubes on primary neurons and glial cells.

Author

Belyanskaya L, Weigel S, Hirsch C, Tobler U, Krug HF, and Wick P

Subjects
Animals, Antibodies metabolism, Cells, Cultured, Chick Embryo, DNA metabolism, Dose-Response Relationship, Drug, Enzyme-Linked Immunosorbent Assay methods, Galactosylceramides immunology, Ganglia, Spinal cytology, Membrane Potentials drug effects, Membrane Potentials physiology, Nerve Tissue Proteins metabolism, Neurites drug effects, Neuroglia cytology, Neuroglia metabolism, O Antigens metabolism, Patch-Clamp Techniques methods, Sensory Receptor Cells cytology, Sensory Receptor Cells metabolism, Spinal Cord cytology, Time Factors, Nanotubes, Carbon toxicity, Neuroglia drug effects, Sensory Receptor Cells drug effects
Abstract

Carbon nanotubes (CNTs) are among the most promising novel nanomaterials and their unique chemical and physical properties suggest an enormous potential for many areas of research and applications. As a consequence, the production of CNT-based material and thus the occupational and public exposure to CNTs will increase steadily. Although there is evidence that nanoparticles (NPs) can enter the nervous system via the blood stream, olfactory nerves or sensory nerves in the skin, there is still only little knowledge about possible toxic effects of CNTs on cells of the nervous system. The goal of the present study was to analyse the influences of single-walled CNTs (SWCNTs) with different degrees of agglomeration on primary cultures derived from chicken embryonic spinal cord (SPC) or dorsal root ganglia (DRG). As measured by the Hoechst assay treatment of mixed neuro-glial cultures with up to 30mug/mL SWCNTs significantly decreased the overall DNA content. This effect was more pronounced if cells were exposed to highly agglomerated SWCNTs as compared to better dispersed SWCNT-bundles. Using a cell-based ELISA we found that SWCNTs reduce the amount of glial cells in both peripheral nervous system (PNS) and central nervous system (CNS) derived cultures. Neurons were only affected in DRG derived cultures, where SWCNT treatment resulted in a decreased number of sensory neurons, as measured by ELISA. Additionally, whole-cell patch recordings revealed a diminished inward conductivity and a more positive resting membrane potential of SWCNT treated DRG derived neurons compared to control samples. The SWCNT suspensions used in this study induced acute toxic effects in primary cultures from both, the central and peripheral nervous system of chicken embryos. The level of toxicity is at least partially dependent on the agglomeration state of the tubes. Thus if SWCNTs can enter the nervous system at sufficiently high concentrations, it is likely that adverse effects on glial cells and neurons might occur.

Published
2009
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26. Different methylation characteristics of protein arginine methyltransferase 1 and 3 toward the Ewing Sarcoma protein and a peptide.

Author

Pahlich S, Bschir K, Chiavi C, Belyanskaya L, and Gehring H

Subjects
Amino Acid Sequence, Conserved Sequence, Kinetics, Methylation, Molecular Sequence Data, Peptide Fragments genetics, Protein Binding, Protein-Arginine N-Methyltransferases genetics, RNA-Binding Protein EWS genetics, Recombinant Proteins chemistry, Recombinant Proteins genetics, Recombinant Proteins metabolism, Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization, Peptide Fragments chemistry, Peptide Fragments metabolism, Protein-Arginine N-Methyltransferases metabolism, RNA-Binding Protein EWS chemistry, RNA-Binding Protein EWS metabolism
Abstract

The multifunctional Ewing Sarcoma (EWS) protein, a member of a large family of RNA-binding proteins, is extensively asymmetrically dimethylated at arginine residues within RGG consensus sequences. Using recombinant proteins we examined whether type I protein arginine methyltransferase (PRMT)1 or 3 is responsible for asymmetric dimethylations of the EWS protein. After in vitro methylation of the EWS protein by GST-PRMT1, we identified 27 dimethylated arginine residues out of 30 potential methylation sites by mass spectrometry-based techniques (MALDI-TOF MS and MS/MS). Thus, PRMT1 recognizes most if not all methylation sites of the EWS protein. With GST-PRMT3, however, only nine dimethylated arginines, located mainly in the C-terminal region of EWS protein, could be assigned, indicating that structural determinants prevent complete methylation. In contrary to previous reports this study also revealed that trypsin is able to cleave after methylated arginines. Pull-down experiments showed that endogenous EWS protein binds efficiently to GST-PRMT1 but less to GST-PRMT3, which is in accordance to the in vitro methylation results. Furthermore, methylation of a peptide containing different methylation sites revealed differences in the site selectivity as well as in the kinetic properties of GST-PRMT1 and GST-PRMT3. Kinetic differences due to an inhibition effect of the methylation inhibitor S-adenosyl-L-homocysteine could be excluded by determining the corresponding K(i) values of the two enzymes and the K(d) values for the methyl donor S-adenosyl-L-methionine. The study demonstrates the strength of MS-based methods for a qualitative and quantitative analysis of enzymic arginine methylation, a posttranslational modification that becomes more and more the object of investigations., ((c) 2005 Wiley-Liss, Inc.)

Published
2005
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27. A functionally improved locked nucleic acid antisense oligonucleotide inhibits Bcl-2 and Bcl-xL expression and facilitates tumor cell apoptosis.

Author

Simões-Wüst AP, Hopkins-Donaldson S, Sigrist B, Belyanskaya L, Stahel RA, and Zangemeister-Wittke U

Subjects
Cell Line, Tumor, Down-Regulation, Female, Gene Expression drug effects, Humans, Neoplasms metabolism, Oligonucleotides genetics, Oligonucleotides, Antisense genetics, Proto-Oncogene Proteins c-bcl-2 analysis, RNA, Messenger analysis, RNA, Messenger drug effects, bcl-X Protein, Apoptosis, Neoplasms genetics, Oligonucleotides pharmacology, Oligonucleotides, Antisense pharmacology, Proto-Oncogene Proteins c-bcl-2 genetics, RNA, Messenger metabolism
Abstract

We previously reported the Bcl-2/Bcl-xL-bispecific activity of the 2'-O-(2-methoxy)ethyl (2'-MOE)-modified gapmer antisense oligonucleotide 4625. This oligonucleotide has 100% complementarity to Bcl-2 and three mismatches to Bcl-xL. In the present study, the isosequential locked nucleic acid (LNA)-modified oligonucleotide 5005 was generated, and its ability to further improve the downregulation of the two antiapoptotic targets in tumor cells was examined. We demonstrate that compared with 4625, 5005 more effectively decreased the expression of the mismatching Bcl-xL target gene in MDA-MB-231 breast and H125 lung cancer cells. In both cell lines, antisense activity caused decreased cell viability by induction of apoptosis. Moreover, in combination with various anticancer agents, 5005 reduced tumor cell viability more effectively than 4625. We describe for the first time the functional comparison of isosequential Bcl-2/Bcl-xL-bispecific 2'-MOE and LNA-modified antisense oligonucleotides and report that the LNA analog more effectively downregulated the two apoptosis inhibitors overexpressed in human tumors. Our data underscore the ability of LNA modifications to enhance the efficacy and favorably modulate the target specificity of antisense oligonucleotides.

Published
2004
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28. Induction of apoptosis and chemosensitization of mesothelioma cells by Bcl-2 and Bcl-xL antisense treatment.

Author

Hopkins-Donaldson S, Cathomas R, Simões-Wüst AP, Kurtz S, Belyanskaya L, Stahel RA, and Zangemeister-Wittke U

Subjects
Antimetabolites, Antineoplastic pharmacology, Antineoplastic Agents pharmacology, Blotting, Western, Caspases metabolism, Cell Division drug effects, Cisplatin pharmacology, Combined Modality Therapy, DNA Primers chemistry, Deoxycytidine pharmacology, Down-Regulation physiology, Humans, Lung Neoplasms genetics, Lung Neoplasms metabolism, Lung Neoplasms therapy, Membrane Potentials drug effects, Mesothelioma genetics, Mesothelioma metabolism, Mitochondria drug effects, Pleural Neoplasms genetics, Pleural Neoplasms metabolism, Polymerase Chain Reaction, Proto-Oncogene Proteins c-bcl-2 genetics, Ribonucleotide Reductases antagonists & inhibitors, Tumor Cells, Cultured, bcl-X Protein, Gemcitabine, Apoptosis drug effects, Deoxycytidine analogs & derivatives, Drug Resistance, Neoplasm physiology, Gene Expression Regulation, Neoplastic, Mesothelioma therapy, Oligonucleotides, Antisense pharmacology, Pleural Neoplasms therapy, Proto-Oncogene Proteins c-bcl-2 metabolism
Abstract

Our study was designed to investigate the role of the anti-apoptotic proteins Bcl-2 and Bcl-xL in the chemoresistance of cells derived from malignant pleural mesothelioma. First, we determined the basal expression levels of Bcl-2 and Bcl-xL in mesothelioma cells and examined the effect of their downregulation by antisense oligonucleotides. Bcl-xL mRNA and protein could be readily detected in mesothelioma cell lines, whereas only low levels of Bcl-2 mRNA and protein were found. Preferential downregulation of either Bcl-xL alone or of Bcl-xL and Bcl-2 simultaneously was achieved by treatment with antisense oligonucleotides 4259 and 4625, respectively, whereas the expression of other apoptosis-relevant genes remained unaffected. Treatment with oligonucleotides 4259 or 4625 lowered the apoptosis threshold in ZL34 mesothelioma cells, as indicated by an increase in cell death accompanied by increased caspase-3-like activity, a decrease of the mitochondrial transmembrane potential and the cleavage of procaspase-7 and ICAD. In addition to the direct induction of apoptosis, antisense treatment sensitized ZL34 cells to the cytostatic effect of cisplatin and gemcitabine, with the combination of 4625 and cisplatin being the most effective. Our results demonstrate that Bcl-2 and Bcl-xL antisense treatment facilitates apoptosis in mesothelioma cells and suggest the use of Bcl-2/Bcl-xL bispecific antisense treatment in combination with cisplatin or gemcitabine for therapy of malignant pleural mesothelioma., (Copyright 2003 Wiley-Liss, Inc.)

Published
2003
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29. Exposure on cell surface and extensive arginine methylation of ewing sarcoma (EWS) protein.

Author

Belyanskaya LL, Gehrig PM, and Gehring H

Subjects
Amino Acid Motifs, Amino Acid Sequence, Arginine chemistry, Avidin metabolism, Biotinylation, Blotting, Western, Cell Nucleus metabolism, Cyclophilins metabolism, Cytosol metabolism, Electrophoresis, Polyacrylamide Gel, Glycine chemistry, Heterogeneous-Nuclear Ribonucleoproteins, Humans, Isoelectric Focusing, Jurkat Cells, Methylation, Molecular Sequence Data, Precipitin Tests, Protein Binding, Protein-Arginine N-Methyltransferases metabolism, RNA metabolism, RNA-Binding Protein EWS, Recombinant Fusion Proteins metabolism, Sepharose metabolism, Spectrometry, Mass, Electrospray Ionization, Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization, Tumor Cells, Cultured, Arginine metabolism, Cell Membrane metabolism, Ribonucleoproteins metabolism
Abstract

In contrast to the knowledge regarding the function of chimeric Ewing sarcoma (EWS) fusion proteins that arise from chromosomal translocation, the cellular function of the RNA binding EWS protein is poorly characterized. EWS protein had been found mainly in the nucleus. In this report we show that EWS protein is not only found in the nucleus and cytosol but also on cell surfaces. After cell-surface biotinylation, isoelectric focusing of membrane fraction, avidin-agarose extraction of biotinylated proteins, and SDS-polyacrylamide gel electrophoresis, EWS protein was identified by matrix-assisted laser desorption ionization and nanoelectrospray tandem mass spectrometry of in-gel-digested peptides. These analyses revealed that the protein, having repeated RGG motifs, is extensively asymmetrically dimethylated on arginine residues, the sites of which have been mapped by mass spectrometric methods. Out of a total of 30 Arg-Gly sequences, 29 arginines were found to be at least partially methylated. The Arg-Gly-Gly sequence was present in 21 of the 29 methylation sites, and in contrast to other methylated proteins, only 11 (38%) methylated arginine residues were found in the Gly-Arg-Gly sequence. The presence of Gly on the C-terminal side of the arginine residue seems to be a prerequisite for recognition by a protein-arginine N-methyltransferase (PRMT) catalyzing this asymmetric dimethylation reaction. One monomethylarginine and no symmetrically methylated arginine residue was found. The present findings imply that RNA-binding EWS protein shuttles from the nucleus to the cell surface in a methylated form, the role of which is discussed.

Published
2001
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30. Renaturation of rabbit liver aminoacyl-tRNA synthetases by 80S ribosomes.

Author

Turkovskaya HV, Belyanskaya LL, Kovalenko MI, and El'skaya AV

Subjects
Amino Acyl-tRNA Synthetases antagonists & inhibitors, Amino Acyl-tRNA Synthetases chemistry, Animals, Enzyme Stability, Hot Temperature, In Vitro Techniques, Kinetics, Leucine-tRNA Ligase chemistry, Leucine-tRNA Ligase metabolism, Phenylalanine-tRNA Ligase chemistry, Phenylalanine-tRNA Ligase metabolism, Protein Denaturation, Rabbits, Ribosomes chemistry, Amino Acyl-tRNA Synthetases metabolism, Liver enzymology, Ribosomes enzymology
Abstract

Protein biosynthesis machinery is thought to be mostly compartmentalised within the mammalian cell, involving direct interactions between different components of the translation apparatus. The present research concerns the functional meaning of the interaction between the rabbit liver aminoacyl-tRNA synthetases and 80S ribosomes. We have shown that rabbit liver 80S ribosomes are able to enhance the activity of leucyl-tRNA synthetase, which is a component of high-molecular weight aminoacyl-tRNA synthetase complex, and phenylalanyl-tRNA synthetase not associated within this complex. The ribosomes increase the initial rate of both the total reaction of tRNA aminoacylation and the first step of this reaction, the formation of leucyladenylate. Moreover, a positive cooperativity of the tRNA interaction with two binding sites of leucyl-tRNA synthetase is also increased in the presence of highly purified 80S ribosomes. The effect of 80S ribosomes on partly denatured leucyl-tRNA synthetase and phenylalanyl-tRNA synthetase and the protection by 80S ribosomes of both enzymes against inactivation indicate a refolding and stabilising capacity of the ribosomes. It is concluded that the interaction of aminoacyl-tRNA synthetases and 80S ribosomes is important for the maintenance of an active conformation of the enzymes.

Published
1999
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