End of selection criteria based on sexual orientation: An international symposium on alternatives to donation deferral.

BACKGROUND AND OBJECTIVES: Until recently, gay, bisexual and other men who have sex with men (MSM) were deferred from donating blood for 3-12 months since the last male-to-male sexual contact. This MSM deferral has been discontinued by several high-income countries (HIC) that now perform gender-neutral donor selection. MATERIALS AND METHODS: An international symposium (held on 20-04-2023) gathered experts from seven HICs to (1) discuss how this paradigm shift might affect the mitigation strategies for transfusion-transmitted infections and (2) address the challenges related to gender-neutral donor selection. RESULTS: Most countries employed a similar approach for implementing a gender-neutral donor selection policy: key stakeholders were consulted; the transition was bridged by time-limited deferrals; donor compliance was monitored; and questions or remarks on anal sex and the number and/or type of sexual partners were often added. Many countries have now adopted a gender-neutral approach in which questions on pre- and post-exposure prophylaxis for human immunodeficiency virus (HIV) have been added (or retained, when already in place). Other countries used mitigation strategies, such as plasma quarantine or pathogen reduction technologies for plasma and/or platelets. CONCLUSION: The experience with gender-neutral donor selection has been largely positive among the countries covered herein and seems to be acceptable to stakeholders, donors and staff. The post-implementation surveillance data collected so far appear reassuring with regards to safety, although longer observation periods are necessary. The putative risks associated with HIV antiretrovirals should be further investigated.

IgG3 and IgM Identified as Key to SARS-CoV-2 Neutralization in Convalescent Plasma Pools.

Analysis of convalescent plasma derived from individuals has shown that IgG3 has the most important role in binding to SARS-CoV-2 antigens; however, this has not yet been confirmed in large studies, and the link between binding and neutralization has not been confirmed. By analyzing plasma pools consisting of 247-567 individual convalescent donors, we demonstrated the binding of IgG3 and IgM to Spike-1 protein and the receptor-binding domain correlates strongly with viral neutralization in vitro. Furthermore, despite accounting for only approximately 12% of total immunoglobulin mass, collectively IgG3 and IgM account for approximately 80% of the total neutralization. This may have important implications for the development of potent therapies for COVID-19, as it indicates that hyperimmune globulins or convalescent plasma donations with high IgG3 concentrations may be a highly efficacious therapy.

Hepatitis A Virus Incidence Rates and Biomarker Dynamics for Plasma Donors, United States.

The United States is currently affected by widespread hepatitis A virus (HAV) outbreaks. We investigated HAV incidence rates among source plasma donors in the United States since 2016. Serial donations from HAV-positive frequent donors were analyzed for common biologic markers to obtain a detailed picture of the course of infection. We found a considerable increase in incidence rates with shifting outbreak hotspots over time. Although individual biomarker profiles were highly variable, HAV RNA typically had a high peak and a biphasic decrease and often remained detectable for several months. One donor had a biomarker pattern indicative of previous exposure. Our findings show that current HAV outbreaks have been spilling over into the plasma donor population. The detailed results presented improve our comprehension of HAV infection and related public health aspects. In addition, the capture of full RNA curves enables estimation of HAV doubling time.

Manufacturing of plasma-derived C1-inhibitor concentrate for treatment of patients with hereditary angioedema.

Background: Replacement therapy with plasma-derived C1-inhibitor (C1-INH) has been used for decades to treat patients with hereditary angioedema (HAE) with C1-INH deficiency. Objective: This article reviewed the rationale for using C1-INH replacement therapy in patients with HAE and the process of manufacturing plasma-derived C1-INH. Methods: The manufacture of C1-INH is an involved and carefully monitored process that includes screening and selection of prospective donors, the collection of source plasma, and purification with dedicated pathogen reduction steps. Donor eligibility is determined by restrictive criteria established and monitored by regulatory agencies as well as voluntary standards implemented by plasma collection centers that exceed government regulations. Individual and pooled donations are tested for transfusion-transmissible infections, including hepatitis B virus, hepatitis C virus, human immunodeficiency virus, parvovirus B19, and hepatitis A virus, by using enzyme-linked immunosorbent assays or nucleic acid amplification technologies. Frozen plasma that is cleared for manufacturing undergoes controlled thawing and centrifugation, and the resulting supernatant (i.e., cryoprecipitate-depleted plasma) is used to manufacture several plasma-derived therapies, including C1-INH. In addition to chromatography steps, the manufacturing process consists of dedicated and effective pathogen reduction steps, including pasteurization, hydrophobic interaction chromatography or polyethylene glycol precipitation, and virus filtration. Manufacturers continuously monitor the safety profile of C1-INH products by robust pharmacovigilance processes that enable systematic collection and evaluation of all suspected adverse drug reaction reports as well as evaluation of safety information from all other sources. Results and Conclusion: These procedures used in donor screening, donation and manufacturing pool testing, manufacturing, and pharmacovigilance ensure that plasma-derived C1-INH products have the safety, quality, identity, potency, and purity that is necessary to provide the intended therapeutic effect.

Isoagglutinin reduction by a dedicated immunoaffinity chromatography step in the manufacturing process of human immunoglobulin products.

BACKGROUND: The passive transfer of antibodies specific to blood groups A and B (also called isoagglutinins) contained in immunoglobulin (Ig)G products for intravenous administration (IVIG) is believed to be largely responsible for rare but sometimes serious IVIG-related hemolytic events. We present in this work a modification of the manufacturing process of Privigen-a 10% l-proline-stabilized IVIG product-that allows extensive reduction of isoagglutinin concentrations in the final product. STUDY DESIGN AND METHODS: An additional immunoaffinity chromatography (IAC) step was introduced toward the end of the manufacturing process of Privigen. Isoagglutinin titers were measured using the indirect agglutination method and a published flow cytometry-based binding assay. Quality attributes, such as microorganism counts and concentration of endotoxins, IgG, IgA, IgM, aggregates, and so forth were measured using standardized procedures. RESULTS: The introduction of an IAC step in the manufacturing process of Privigen resulted in an 88% to 90% reduction in isoagglutinins between the feed of the chromatography column and the flow-through fraction. All other product quality attributes measured were nearly identical before and after IAC. This process modification resulted in a three-titer-step reduction in isoagglutinin levels in the final IgG product compared to Privigen lots produced by the unmodified process. CONCLUSION: Introducing an isoagglutinin-specific IAC step in the manufacturing process of Privigen is an efficient strategy for reduction of anti-A and anti-B titers. Such reductions might help minimize the risk of hemolytic events in patients receiving IVIG therapy.

Donor screening reduces the isoagglutinin titer in immunoglobulin products.

BACKGROUND: Hemolysis reaction is a rare class effect of therapy with intravenously administered human normal immunoglobulin (IVIG). Anti-A/B isoagglutinins (isohemagglutinins) originating from donor plasma are considered a probable risk factor for hemolysis. We hypothesized that screening and exclusion of plasma obtained from donors with high isoagglutinin titers from the manufacturing process would produce a meaningful reduction of anti-A/B isoagglutinin titers of the final IVIG product. STUDY DESIGN AND METHODS: A donor screening method for anti-A isoagglutinins using an automated indirect agglutination test (IAT) in gel cards was developed. Industry-scale donor plasma pools and final IVIG product were prepared according to the manufacturing process of Privigen (human 10% liquid IVIG). Anti-A/B isoagglutinin levels were measured by IAT, direct agglutination test, and a flow cytometry-based assay. RESULTS: Screening of plasma from 705 randomly selected donors identified 6.8% donors with high anti-A isoagglutinin titers in plasma. Exclusion of plasma from these donors resulted in a one-titer-step reduction of anti-A isoagglutinin in laboratory-scale pooled plasma. The same donor screening method applied to industry-scale production resulted in exclusion of 5.1% of donors and produced a one-titer-step reduction of both anti-A and anti-B isoagglutinin titers in the final IVIG product. CONCLUSION: Anti-A/B isoagglutinin titers in IVIG products can be reduced on an industrial scale through implementation of anti-A donor screening, which may lower the risk of hemolysis after IVIG therapy.

Isoagglutinin Reduction in Human Immunoglobulin Products by Donor Screening.

INTRODUCTION: Hemolysis is considered a class effect and a rare adverse event that can occur following therapy with human normal immunoglobulin for intravenous administration [i.e., intravenous immunoglobulin (IVIG)]. Anti-A/B isoagglutinins (also referred to as isohemagglutinins) originating from donor plasma are present in polyvalent immunoglobulin G (IgG) products and are considered a probable risk factor for hemolysis. We hypothesized that, by excluding plasma from donors with high isoagglutinin titers, the final IVIG product would have a meaningful reduction in anti-A/B isoagglutinin titers. METHODS: A method for screening donor plasma for anti-A isoagglutinins using an automated indirect agglutination test (IAT) was developed. A cut-off for donor plasma exclusion was defined. Industry-scale donor plasma pools and final IVIG product were prepared according to the manufacturing process of Privigen(®) (CSL Behring, Berne, Switzerland; human 10% liquid IVIG). Anti-A/B isoagglutinin content in pooled plasma and final IVIG product was measured by IAT, direct agglutination test, and a flow cytometry-based assay [fluorescence-activated cell sorting (FACS) anti-A]. RESULTS: Screening of plasma from 705 donors identified 48 (6.8%) donors with high anti-A isoagglutinin titers in plasma (IAT agglutination score ≥2+ in a 1:200 pre-dilution). Exclusion of plasma from these donors resulted in a one-titer-step reduction of anti-A isoagglutinin in pooled plasma, confirmed by a twofold anti-A isoagglutinin concentration reduction measured by FACS anti-A (1,352 vs. 2,467 µg/g IgG). When the same screening and exclusion were applied to industrial-scale plasma pools (resulting in the exclusion of plasma from 5% of donors), anti-A isoagglutinins were reduced by one titer step in the final IVIG product. Anti-B isoagglutinins were also reduced by one titer step, as many donors with high anti-A isoagglutinins also have high anti-B. CONCLUSION: Reduction of anti-A/B isoagglutinin titers in IVIG products on an industrial scale is feasible through implementation of anti-A donor screening, which may reduce the risk of hemolysis following IVIG therapy.

The fibrinogen- and fibronectin-binding domains of Staphylococcus aureus fibronectin-binding protein A synergistically promote endothelial invasion and experimental endocarditis.

Staphylococcus aureus experimental endocarditis relies on sequential fibrinogen binding (for valve colonization) and fibronectin binding (for endothelial invasion) conferred by peptidoglycan-attached adhesins. Fibronectin-binding protein A (FnBPA) reconciles these two properties--as well as elastin binding--and promotes experimental endocarditis by itself. Here we attempted to delineate the minimal subdomain of FnBPA responsible for fibrinogen and fibronectin binding, cell invasion, and in vivo endocarditis. A large library of truncated constructs of FnBPA was expressed in Lactococcus lactis and tested in vitro and in animals. A 127-amino-acid subdomain spanning the hinge of the FnBPA fibrinogen-binding and fibronectin-binding regions appeared necessary and sufficient to confer the sum of these properties. Competition with synthetic peptides could not delineate specific fibrinogen- and fibronectin-binding sites, suggesting that dual binding arose from protein folding, irrespective of clearly defined binding domains. Moreover, coexpressing the 127-amino-acid subdomain with remote domains of FnBPA further increased fibrinogen binding by > or =10 times, confirming the importance of domain interactions for binding efficacy. In animals, fibrinogen binding (but not fibronectin binding) was significantly associated with endocarditis induction, whereas both fibrinogen binding and fibronectin binding were associated with disease severity. Moreover, fibrinogen binding also combined with fibronectin binding to synergize the invasion of cultured cell lines significantly, a feature correlating with endocarditis severity. Thus, while fibrinogen binding and fibronectin binding were believed to act sequentially in colonization and invasion, they appeared unexpectedly intertwined in terms of both functional anatomy and pathogenicity (in endocarditis). This unforeseen FnBPA subtlety might bear importance for the development of antiadhesin strategies.

New concepts in the pathophysiology of infective endocarditis.

Endocarditis pathogens colonize valves with pre-existing sterile vegetations or valves with minimal endothelial lesions. Inflamed endothelia produce cytokines, integrins, and tissue factor, which in turn attract fibronectin, monocytes, and platelets. Bacteria attaching to such structures further activate the cascade, becoming embedded and protected from host defenses. Staphylococcus aureus also actively invade the endothelium, causing apoptosis and endothelial damage. Knowledge of this interplay identifies host factors as potential therapeutic targets. Blocking infection by modulating host factors might be opportune because host factors are conserved. In contrast, interfering with bacterial virulence factors might be more complicated because they vary among different bacteria.

Fibrinogen and fibronectin binding cooperate for valve infection and invasion in Staphylococcus aureus experimental endocarditis.

The expression of Staphylococcus aureus adhesins in Lactococcus lactis identified clumping factor A (ClfA) and fibronectin-binding protein A (FnBPA) as critical for valve colonization in rats with experimental endocarditis. This study further analyzed their role in disease evolution. Infected animals were followed for 3 d. ClfA-positive lactococci successfully colonized damaged valves, but were spontaneously eradicated over 48 h. In contrast, FnBPA-positive lactococci progressively increased bacterial titers in vegetations and spleens. At imaging, ClfA-positive lactococci were restricted to the vegetations, whereas FnBPA-positive lactococci also invaded the adjacent endothelium. This reflected the capacity of FnBPA to trigger cell internalization in vitro. Because FnBPA carries both fibrinogen- and fibronectin-binding domains, we tested the role of these functionalities by deleting the fibrinogen-binding domain of FnBPA and supplementing it with the fibrinogen-binding domain of ClfA in cis or in trans. Deletion of the fibrinogen-binding domain of FnBPA did not alter fibronectin binding and cell internalization in vitro. However, it totally abrogated valve infectivity in vivo. This ability was restored in cis by inserting the fibrinogen-binding domain of ClfA into truncated FnBPA, and in trans by coexpressing full-length ClfA and truncated FnBPA on two separate plasmids. Thus, fibrinogen and fibronectin binding could cooperate for S. aureus valve colonization and endothelial invasion in vivo.

Comparative analysis of the roles of HtrA-like surface proteases in two virulent Staphylococcus aureus strains.

The HtrA surface protease is involved in the virulence of many pathogens, mainly by its role in stress resistance and bacterial survival. Staphylococcus aureus encodes two putative HtrA-like proteases, referred to as HtrA(1) and HtrA(2). To investigate the roles of HtrA proteins in S. aureus, we constructed htrA(1), htrA(2), and htrA(1) htrA(2) insertion mutants in two genetically different virulent strains, RN6390 and COL. In the RN6390 context, htrA(1) inactivation resulted in sensitivity to puromycin-induced stress. The RN6390 htrA(1) htrA(2) mutant was affected in the expression of several secreted virulence factors comprising the agr regulon. This observation was correlated with the disappearance of the agr RNA III transcript in the RN6390 htrA(1) htrA(2) mutant. The virulence of this mutant was diminished in a rat model of endocarditis. In the COL context, both HtrA(1) and HtrA(2) were essential for thermal stress survival. However, only HtrA(1) had a slight effect on exoprotein expression. The htrA mutations did not diminish the virulence of the COL strain in the rat model of endocarditis. Our results indicate that HtrA proteins have different roles in S. aureus according to the strain, probably depending on specific differences in the regulation of virulence factor and stress protein expression. We propose that HtrA(1) and HtrA(2) contribute to pathogenicity by controlling the production of certain extracellular factors that are crucial for bacterial dissemination, as revealed in the RN6390 background. We speculate that HtrA proteins act in the agr-dependent regulation pathway by assuring folding and/or maturation of some surface components of the agr system.