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BACKGROUND AND OBJECTIVES: Deficiencies of protein C (PC) or protein S (PS) are rare diseases, characterized by mutations in the PC or PS genes, which encode plasma serine proteases with anti-coagulant activity. Severe PC or PS deficiencies manifest in early life as neonatal purpura fulminans, a life-threatening heamorrhagic condition requiring immediate treatment. First-line treatment involves replacement therapy, followed by maintenance with anti-coagulants. Replacement therapy with specific protein concentrates is currently only limited to PC, and therefore, a PC + PS concentrate represents a useful addition to therapeutic options, particularly for severe PS deficiency. Further, the production of a PC + PS concentrate from unused plasma fractionation intermediates would impact favourably on manufacturing costs, and consequently therapy prices for patients and health systems. MATERIALS AND METHODS: Several chromatographic runs were performed on the same unused plasma fractionation intermediates using different supports to obtain a PC/PS concentrate. The best chromatographic mediums were chosen, in terms of specific activity and recovery. A full process of purification including virus inactivation/removal and lyophilization steps was set up. RESULTS: The final freeze-dried product had a mean PC concentration of 47.75 IU/mL with 11% of PS, and a mean specific activity of 202.5 IU/mg protein, corresponding to over 12,000-fold purification from plasma. CONCLUSION: The development of a novel concentrated PC/PS mixture obtained from a waste fraction of other commercial products could be used for its potential therapeutic role in the management of neonatal purpura fulminans pathology.
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Deficiência de Proteína C , Púrpura Fulminante , Recém-Nascido , Humanos , Púrpura Fulminante/tratamento farmacológico , Púrpura Fulminante/genética , Deficiência de Proteína C/tratamento farmacológico , Proteína C/análise , Proteína C/uso terapêutico , Proteína S , Plasma/químicaRESUMO
Plasma-derived proteins are a subset of relevant biotherapeutics also known as "well-characterized biologicals". They are enriched from plasma through several steps of physical and biochemical methodologies, reaching the regulatory accepted standards of safety, levels of impurities, activity and lot-to-lot consistency. Final products accepted for commercialization are submitted to tight analytical, functional and safety controls by a number of different approaches that fulfill the requirements of sensitivity and reliability. We report here the use of a multianalytical approach for the comparative evaluation of different lots of Factor IX isolated from plasma preparations and submitted or not to a step of nanofiltration. The approach include, among the other, proteomic techniques based on both MALDI-TOF and LC-MS Orbitrap mass spectrometry, circular dichroism for structural characterization, chromatographic and electrophoretic techniques, ELISA and functional assays based on clotting activity and binding to known anticoagulants. Comparative data obtained on two sets of nanofiltered and non-nanofiltered lots with different final activity show that the products have substantially overlapping profiles in terms of activity, contaminants, structural properties and protein content, suggesting that the proposed multianalytical approach is robust enough to be used for the routine validation of clinical lots.
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Fator IX/análise , Filtração , Nanofibras/química , Dicroísmo Circular , Ensaio de Imunoadsorção Enzimática , Humanos , Espectrometria de Massas , ProteômicaRESUMO
Introduction: Complement factor H (FH) is a major regulator of the complement alternative pathway, its mutations predispose to an uncontrolled activation in the kidney and on blood cells and to secondary C3 deficiency. Plasma exchange has been used to correct for FH deficiency and although the therapeutic potential of purified FH has been suggested by in vivo experiments in animal models, a clinical approved FH concentrate is not yet available. We aimed to develop a purification process of FH from a waste fraction rather than whole plasma allowing a more efficient and ethical use of blood and plasma donations. Methods: Waste fractions from industrial plasma fractionation (pooled human plasma) were analyzed for FH content by ELISA. FH was purified from unused fraction III and its decay acceleration, cofactor, and C3 binding capacity were characterized in vitro. Biodistribution was assessed by high-resolution dynamic PET imaging. Finally, the efficacy of the purified FH preparation was tested in the mouse model of C3 glomerulopathy (Cfh-/- mice). Results: Our purification method resulted in a high yield of highly purified (92,07%), pathogen-safe FH. FH concentrate is intact and fully functional as demonstrated by in vitro functional assays. The biodistribution revealed lower renal and liver clearance of human FH in Cfh-/- mice than in wt mice. Treatment of Cfh-/- mice documented its efficacy in limiting C3 activation and promoting the clearance of C3 glomerular deposits. Conclusion: We developed an efficient and economical system for purifying intact and functional FH, starting from waste material of industrial plasma fractionation. The FH concentrate could therefore constitute possible treatments options of patients with C3 glomerulopathy, particularly for those with FH deficiency, but also for patients with other diseases associated with alternative pathway activation.
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Complemento C3 , Fator H do Complemento , Camundongos Knockout , Fator H do Complemento/metabolismo , Fator H do Complemento/genética , Animais , Humanos , Camundongos , Modelos Animais de Doenças , Estudo de Prova de Conceito , Camundongos Endogâmicos C57BLRESUMO
Plasma-derived therapeutic proteins are produced through an industrial fractionation process where proteins are purified from individual intermediates, some of which remain unused and are discarded. Relatively few plasma-derived proteins are exploited clinically, with most of available plasma being directed towards the manufacture of immunoglobulin and albumin. Although the plasma proteome provides opportunities to develop novel protein replacement therapies, particularly for rare diseases, the high cost of plasma together with small patient populations impact negatively on the development of plasma-derived orphan drugs. Enabling therapeutics development from unused plasma fractionation intermediates would therefore constitute a substantial innovation. To this objective, we characterized the proteome of unused plasma fractionation intermediates and prioritized proteins for their potential as new candidate therapies for human disease. We selected ceruloplasmin, a plasma ferroxidase, as a potential therapy for aceruloplasminemia, an adult-onset ultra-rare neurological disease caused by iron accumulation as a result of ceruloplasmin mutations. Intraperitoneally administered ceruloplasmin, purified from an unused plasma fractionation intermediate, was able to prevent neurological, hepatic and hematological phenotypes in ceruloplasmin-deficient mice. These data demonstrate the feasibility of transforming industrial waste plasma fraction into a raw material for manufacturing of new candidate proteins for replacement therapies, optimizing plasma use and reducing waste generation.
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Ceruloplasmina , Distúrbios do Metabolismo do Ferro , Doenças Neurodegenerativas , Proteoma , Adulto , Humanos , Animais , Camundongos , Ceruloplasmina/genética , Ceruloplasmina/metabolismo , Proteoma/metabolismo , Doenças Raras , Resíduos IndustriaisRESUMO
Acute respiratory distress syndrome (ARDS) is a severe complication of lung injuries, commonly associated with bacterial, fungal and viral infections, including SARS-CoV-2 viral infections. ARDS is strongly correlated with patient mortality and its clinical management is very complex, with no effective treatment presently available. ARDS involves severe respiratory failure, fibrin deposition in both airways and lung parenchyma, with the development of an obstructing hyaline membrane drastically limiting gas exchange. Moreover, hypercoagulation is related to deep lung inflammation, and a pharmacological action toward both aspects is expected to be beneficial. Plasminogen (PLG) is a main component of the fibrinolytic system playing key roles in various inflammation regulatory processes. The inhalation of PLG has been proposed in the form of the off-label administration of an eyedrop solution, namely, a plasminogen-based orphan medicinal product (PLG-OMP), by means of jet nebulisation. Being a protein, PLG is susceptible to partial inactivation under jet nebulisation. The aim of the present work is to demonstrate the efficacy of the mesh nebulisation of PLG-OMP in an in vitro simulation of clinical off-label administration, considering both the enzymatic and immunomodulating activities of PLG. Biopharmaceutical aspects are also investigated to corroborate the feasibility of PLG-OMP administration by inhalation. The nebulisation of the solution was performed using an Aerogen® SoloTM vibrating-mesh nebuliser. Aerosolised PLG showed an optimal in vitro deposition profile, with 90% of the active ingredient impacting the lower portions of a glass impinger. The nebulised PLG remained in its monomeric form, with no alteration of glycoform composition and 94% of enzymatic activity maintenance. Activity loss was observed only when PLG-OMP nebulisation was performed under simulated clinical oxygen administration. In vitro investigations evidenced good penetration of aerosolised PLG through artificial airway mucus, as well as poor permeation across an Air-Liquid Interface model of pulmonary epithelium. The results suggest a good safety profile of inhalable PLG, excluding high systemic absorption but with good mucus diffusion. Most importantly, the aerosolised PLG was capable of reversing the effects of an LPS-activated macrophage RAW 264.7 cell line, demonstrating the immunomodulating activity of PLG in an already induced inflammatory state. All physical, biochemical and biopharmaceutical assessments of mesh aerosolised PLG-OMP provided evidence for its potential off-label administration as a treatment for ARDS patients.
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Human albumin solutions were developed as therapeutic during the Second World War to address blood loss due to battlefield injury. This indication was based on the recognition that albumin provided most of the oncotic capacity of human plasma. For the succeeding sixty years, this formed the basis for the use of albumin in traumatology and emergency medicine. In more recent times, the pharmacological properties arising from albumin's complex structure have become a focus of attention by clinical researchers. In particular, albumin, through anti-inflammatory and anti-oxidant properties, has been proposed as an agent for the treatment of sepsis, cirrhosis and other inflammatory states. Some evidence for these indications has accrued from a number of small clinical trials and observational studies. These studies have not been confirmed in other large trials. Together with other investigators, we have shown that the process of plasma fractionation results in alterations in the structure of albumin, including those parts of the molecule involved in anti-oxidant and anti-inflammatory effects. Albumin products from diverse manufacturers show heterogeneity in their ability to address these effects. In this article, we review the historical development of albumin solutions, pointing out the variations in fractionation chemistries which different manufacturers have adopted. We suggest ways by which the manufacturing processes have contributed to variations in the physico-chemical properties of molecule. We review the outcomes of clinical studies assessing the role of albumin in ameliorating conditions such as sepsis and cirrhosis, and we speculate as to the extent which heterogeneity in the products may have contributed to variable clinical outcomes. Finally, we argue for a change in the perception of the plasma product industry and its regulatory overseers. Historically, albumin has been viewed as a generic commodity, with different preparations being interchangeable in their clinical application. We suggest that this implied biosimilarity is not necessarily applicable for different albumin solutions. The use of albumin, in indications other than its historical role as a plasma expander, can only be validated by clinical investigation of each separate albumin product.
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Sepse , Albumina Sérica Humana , Albuminas/química , Antioxidantes/uso terapêutico , Fibrose , Humanos , Cirrose Hepática/tratamento farmacológico , Sepse/tratamento farmacológico , Resultado do TratamentoRESUMO
Human serum albumin (HSA) is widely used for the treatment of diverse clinical conditions to restore plasma volume, manage burns and treat hypoproteinemia.Although the HSA preparations should ideally preserve its functionality, the structural integrity and antioxidant properties of HSA may be compromised as a result of the manufacturing process. The present study examined seven commercially available HSA preparations for clinical use to investigate their post-translational modifications (PTMs) and antioxidant activity, including DPPH radical-scavenging, peroxyl radical antioxidant and metal binding activities, by means of mass spectrometry and Ellman's assay. The results confirmed that most of the PTMs of HSA and especially the oxidation of the free thiol residue varied between the different commercial albumins and the percentage of these PTMs were higher than those of physiological HSA. Moreover, HSA-DA isoform was increased at the end of the stability time and new oxidative modifications occurred in these samples. In conclusion, the bioprocesses for production of commercial albumins are responsible of their wide heterogeneity, being the ethanol fractionation and their storage conditions the more critical phases. Nonetheless, the Kedrion albumin shows a high content of free thiol and a lower concentration of PTMs than other commercial albumins.
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Antioxidantes/metabolismo , Albumina Sérica Humana/metabolismo , Compostos de Bifenilo/metabolismo , Humanos , Oxirredução , Peróxidos/metabolismo , Picratos/metabolismo , Processamento de Proteína Pós-TraducionalRESUMO
The SARS-CoV-2 infection is associated with pulmonary coagulopathy, which determines the deposition of fibrin in the air spaces and lung parenchyma. The resulting lung lesions compromise patient pulmonary function and increase mortality, or end in permanent lung damage for those who have recovered from the COVID-19 disease. Therefore, local pulmonary fibrinolysis can be efficacious in degrading pre-existing fibrin clots and reducing the conversion of lung lesions into lasting scars. Plasminogen is considered a key player in fibrinolysis processes, and in view of a bench-to-bedside translation, we focused on the aerosolization of an orphan medicinal product (OMP) for ligneous conjunctivitis: human plasminogen (PLG-OMP) eye drops. As such, the sterile and preservative-free solution guarantees the pharmaceutical quality of GMP production and meets the Ph. Eur. requirements of liquid preparations for nebulization. PLG-OMP aerosolization was evaluated both from technological and stability viewpoints, after being submitted to either jet or ultrasonic nebulization. Jet nebulization resulted in a more efficient delivery of an aerosol suitable for pulmonary deposition. The biochemical investigation highlighted substantial protein integrity maintenance with the percentage of native plasminogen band > 90%, in accordance with the quality specifications of PLG-OMP. In a coherent way, the specific activity of plasminogen is maintained within the range 4.8-5.6 IU/mg (PLG-OMP pre-nebulization: 5.0 IU/mg). This is the first study that focuses on the technological and biochemical aspects of aerosolized plasminogen, which could affect both treatment efficacy and clinical dosage delivery. Increasing evidence for the need of local fibrinolytic therapy could merge with the availability of PLG-OMP as an easy handling solution, readily aerosolizable for a fast translation into an extended clinical efficacy assessment in COVID-19 patients.
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Coupling to lactosaminated human albumin (L-HSA) makes doxorubicin (DOXO) an effective drug against chemically induced rat hepatocellular carcinomas (HCCs). In the conjugate there is a large heterogeneity in the number of DOXO molecules bound to one L-HSA molecule. After lyophilization, the molecules with the higher DOXO load form large complexes (C-DOXOL), whereas those with low drug load (C-DOXOS) have the size of the carrier L-HSA. In the present experiments, we demonstrated that in C-DOXOL the molecules are not linked by covalent bonds, but are strongly aggregated probably because of mutual drug-drug interaction between the DOXO residues. In healthy rats and in animals with HCCs which received the same dose (1 microg/g) of DOXO injected in C-DOXOL or in C-DOXOS forms, penetration of the drug in tumors and in tissues was more rapid after administration of the former complex. Three hours after injection of both conjugate forms the intracellular release of DOXO from the carrier was completed. The AUCs from 0.5 to 4h of the levels of the released DOXO in HCCs, surrounding liver and bone marrow of animals injected with C-DOXOL were similar to those calculated in animals given C-DOXOS. This suggests that after administration of the dose of DOXO used in the present experiments the conjugate molecules with lower or higher drug load can exert comparable pharmacological and toxic effects.
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Carcinoma Hepatocelular/metabolismo , Doxorrubicina/farmacocinética , Neoplasias Hepáticas Experimentais/metabolismo , Albumina Sérica/química , Animais , Área Sob a Curva , Medula Óssea/química , Medula Óssea/metabolismo , Cromatografia em Gel , Cromatografia Líquida , Dicroísmo Circular , Doxorrubicina/sangue , Doxorrubicina/química , Eletroforese em Gel de Poliacrilamida , Humanos , Fígado/química , Fígado/metabolismo , Masculino , Estrutura Molecular , Peso Molecular , Ratos , Ratos WistarRESUMO
: Desmopressin-unresponsive von Willebrand disease patients are treated with substitutive therapy, with both pure von Willebrand factor (vWF) and factor VIII/vWF concentrates. We developed a new purification process, easily scalable to industrial level, to obtain a double virus inactivated highly pure vWF. VWF was purified starting from a waste fraction of already in use human plasma-derived factor VIII manufacturing procedure, using only one anionic-exchange chromatographic step. After chromatography, the product was dialyzed, lyophilized, and heat treated. The process resulted in a very highly purified vWF, with a mean specific activity of 95.3âIU of vWF:ristocetin cofactor assay/mg of total proteins. The obtained vWF had a whole structure, as showed by the triplet bands analysis. The residual content of contaminating proteins such as immonoglobulin M and factor VIII was very low. Immunoglobulin A, immunoglobulin G, and fibronectin were totally absent. Notably, the lyophilized highly pure vWF was stable, without the addition of stabilizing proteinaceous material. A new simple purification method was performed, starting from a waste fraction of in use plasma-derived factor VIII process, using one single chromatographic step to obtain a highly pure and double virus inactivated vWF.
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Doenças de von Willebrand/tratamento farmacológico , Fator de von Willebrand/uso terapêutico , Humanos , Fator de von Willebrand/farmacologiaRESUMO
The von Willebrand ristocetin cofactor assay is still the main cleared measurement test used to evaluate von Willebrand factor (vWF) activity in concentrate samples containing vWF. Although the assay's performance has been improved over the years, the test reliability is still affected by a high interassay and interlaboratory variability; moreover, it requires skilled technicians and significant time. An automated HemosIL vWF:activity test, already set up on plasma samples, was then applied to factor VIII/vWF concentrates to verify its suitability in routine analysis of concentrate samples. As first step precision, linearity and accuracy were assessed. Then, 40 commercial batches of a high purity factor VIII/vWF concentrate were examined with this new method. The Spearman's correlation between the results obtained with the HemosIL vWF:activity assay and vWF activities determined by established procedures was evaluated. Comparisons of the means between HemosIL vWF:activity and the other tests were calculated with the Wilcoxon and Bland-Altman tests. Validation study showed satisfying within-run and between-run precision values. Activities determined with HemosIL vWF:activity had good correlation with those determined as ristocetin cofactor, Imubind (vWF:Imubind) and collagen-binding. Wilcoxon test, used to compare the means between the HemosIL vWF:activity and the other activity assessments, proved no significant variation with vWF:Imubind, but displayed a slight variation with von Willebrand ristocetin cofactor and von Willebrand factor:collagen-binding. This automated HemosIL vWF:activity test could be included in routine determination of vWF activity in concentrate samples and supports traditional von Willebrand ristocetin cofactor because it is reliable, reproducible and sensitive.
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Fator VIII/metabolismo , Testes Hematológicos/métodos , Fator de von Willebrand/metabolismo , Testes Hematológicos/instrumentação , Humanos , Modelos Lineares , Sensibilidade e EspecificidadeRESUMO
For a good clinical outcome of Haemophilia A substitutive therapy a detailed characterization of factor VIII (FVIII) concentrates is required, in order to disclose the eventual relations between differently composed concentrates and their biological effects. This preliminary work could be a first step towards a deep structural characterization of FVIII concentrates, using the fast and simply manageable MudPIT technology, which enables the identification and characterization of protein mixtures taking advantage of both the high separation capacity of two-dimensional chromatography and the powerful peptide characterization ability of tandem mass spectrometry. The aim of this study was to evaluate the suitability of for the characterization of FVIII molecule in complex mixtures such its commercial concentrates, both plasma-derived and recombinant, and for the determination of the protein composition of different FVIII preparations. By means of Multidimensional Protein Identification Technology (MudPIT) it was possible to assess the presence of factor VIII in its preparations and to identify most of the contaminant proteins without gel separation. In particular, 125 and 42 proteins were identified in plasma-derived and recombinant concentrates, respectively. Concerning investigation of FVIII, 24 different peptides were identified in plasma-derived corresponding to 7, 29, 27, 19 and 67 of percentage coverage for A1, A2, A3, C1 and C2 domains, respectively. About its multimeric carrier von Willebrand factor (VWF), we have sequenced 42% of domain interacting with A3 and C2 domains of FVIII. Finally, it has been observed that normalized parameters, such as total peptide hits obtained by SEQUEST may be used for evaluation of the relative abundance of FVIII in different preparations.
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Eletrocromatografia Capilar/métodos , Fator VIII/análise , Preparações Farmacêuticas/análise , Proteômica/métodos , Contaminação de Medicamentos/prevenção & controle , Peptídeos/análise , Proteínas/análise , Proteínas Recombinantes/análise , Espectrometria de Massas em Tandem/métodosRESUMO
BACKGROUND: This study was aimed at obtaining significant information on the quality of whole-blood plasma (WBP) delivered to a private pharmaceutical company by the blood transfusion centers (BTCs) of 10 Italian regions. STUDY DESIGN AND METHODS: A statistical sampling plan of plasma units took into account the contribution each selected blood transfusion center, belonging to the 10 regions, made to the plasma pool annually delivered to the pharmaceutical company. A total of 1787 plasma units were selected for coagulation Factor VIII (FVIII:C) and Factor VIII antigen (FVIII:Ag) analysis. RESULTS: The FVIII:C mean value was 0.99 IU per mL; it was significantly lower in O units (0.86 IU/mL) than in non-O units (1.08 IU/mL). The mean value of FVIII:Ag was 0.90 IU per mL; it was significantly lower in O units (0.78 IU/mL) than in non-O units (0.99 IU/mL). In units with a FVIII:C level of less than 0.70 IU per mL, the FVIII:Ag mean value (0.62 IU/mL) was higher in comparison to the FVIII:C mean value (0.57 IU/mL). Instead, in the units with a FVIII:C level of at least 0.70 IU per mL, the mean level of FVIII:C (1.08 IU/mL) was higher than that of FVIII:Ag (0.96 IU/mL). CONCLUSIONS: The mean value of FVIII:C (0.99 IU/mL) in whole-blood plasma produced by the 10 Italian regions is higher than that reported in other studies. A total of 83.1 percent of units have a FVIII:C level of at least 0.70 IU per mL. The mean level of FVIII:Ag is lower than that of FVIII:C. FVIII:Ag is higher in those units with a FVIII:C level of less than 0.70 IU per mL, while it gradually decreases as FVIII:C exceeds 0.70 IU per mL, thus showing a greater resistance to handling of plasma in the production steps mostly affecting FVIII:C stability.