Josef Vlasak
Merck & Co.
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Publication
Featured researches published by Josef Vlasak.
Analytical Biochemistry | 2009
Josef Vlasak; Marie C. Bussat; Shiyi Wang; Elsa Wagner-Rousset; Mark Schaefer; Christine Klinguer-Hamour; Marc Kirchmeier; Nathalie Corvaia; Roxana Ionescu; Alain Beck
Despite technological advances, detection of deamidation in large proteins remains a challenge and the use of orthogonal methods is needed for unequivocal assignment. By a combination of cation-exchange separation, papain digestion, and a panel of mass spectrometry techniques we identified asparagine deamidation in light chain complementarity determining region 1 (CDR1) of a humanized IgG1 monoclonal antibody. The reaction yields both Asp and isoAsp, which were assigned by Edman degradation and by isoAsp detection using protein isoaspartate methyltransferase. The deamidated antibody variants were less potent in antigen binding compared to the nondegraded antibody. Changes in near-UV CD spectra, susceptibility to papain cleavage in an adjacent CDR2 loop, and the tendency of the newly formed isoAsp to undergo isomerization suggest local perturbations in the structure of the isoAsp-containing antibody.
Molecular Immunology | 2011
Weirong Wang; Josef Vlasak; Yunsong Li; Pavlo Pristatsky; Yulin Fang; Tamara Pittman; Jeanette Roman; Yang Wang; Thomayant Prueksaritanont; Roxana Ionescu
IgG monoclonal antibodies (mAbs) consist of two Fab fragments and one Fc fragment. The Fab fragments contain the variable regions and are responsible for drug specificity (via antigen binding); the Fc fragment contains constant regions and is responsible for effector functions (via interactions with Fcγ receptors) and extended serum half-life (via interaction with the neonatal Fc receptor, FcRn). There are two conserved methionine (Met) residues located in the FcRn binding site of the Fc fragment. It has been shown previously that oxidation of these two Met residues decreases the binding affinity to FcRn. We have further evaluated the impact of Met oxidation on serum half-lives of two humanized IgG1 mAbs in transgenic mice with human FcRn. Variable oxidation levels were obtained by several procedures: exposure to an oxidizing agent, accumulation during extended refrigerated storage, or chromatographic separation. Our results show that Met oxidation can result in a significant reduction of the serum circulation half-life and the magnitude of the change correlates well with the extent of Met oxidation and changes in FcRn binding affinities. The relatively low levels of Met oxidation accumulated during 3 years of refrigerated storage had minimal impact on FcRn binding and no detectable impact on the serum half-life.
Molecular Immunology | 2009
Andrea Bertolotti-Ciarlet; Weirong Wang; Rebecca Lownes; Pavlo Pristatsky; Yulin Fang; Troy W. McKelvey; Yingzhe Li; Yunsong Li; James E. Drummond; Thomayant Prueksaritanont; Josef Vlasak
Methionine oxidation commonly occurs in the Fc fragment of therapeutic monoclonal antibodies; however, its impact on antibody function has not been addressed. Using surface plasmon resonance and cell binding assays, we examined the impact of methionine oxidation on the binding of two humanized IgG1 antibodies to Fc gamma receptors (Fc gammaR) and to the neonatal Fc receptor (Fc Rn). A panel of Fc gammaRs, including Fc gammaRI, Fc gammaRIIa-131H, Fc gammaRIIa-131R, Fc gammaRIIb/c, Fc gammaRIII ALF, Fc gammaRIII ALV, and Fc gammaRIIIb was evaluated. The binding of oxidized IgG1 molecules to individual receptors remained the same with the exception of Fc gammaRIIa where a subtle decrease in binding to the 131H allele was observed. In contrast, but in agreement with recently reported structural changes associated with Met oxidation, binding to Fc Rn was significantly affected. An increase in K(D) values at pH 6.0 was observed with increasing degree of oxidation, reaching several-fold greater value in highly oxidized samples. To our knowledge this is the first report demonstrating that chemical degradations in the constant region of monoclonal antibodies can impact their function and it highlights the importance of avoiding oxidation in therapeutic antibodies.
mAbs | 2011
Josef Vlasak; Roxana Ionescu
Fragmentation is a degradation pathway ubiquitously observed in proteins despite the remarkable stability of peptide bond; proteins differ only by how much and where cleavage occurs. The goal of this review is to summarize reports regarding the non-enzymatic fragmentation of the peptide backbone of monoclonal antibodies (mAbs). The sites in the polypeptide chain susceptible to fragmentation are determined by a multitude of factors. Insights are provided on the intimate chemical mechanisms that can make some bonds prone to cleavage due to the presence of specific side-chains. In addition to primary structure, the secondary, tertiary and quaternary structures have a significant impact in modulating the distribution of cleavage sites by altering local flexibility, accessibility to solvent or bringing in close proximity side chains that are remote in sequence. This review focuses on cleavage sites observed in the constant regions of mAbs, with special emphasis on hinge fragmentation. The mechanisms responsible for backbone cleavage are strongly dependent on pH and can be catalyzed by metals or radicals. The distribution of cleavage sites are different under acidic compared to basic conditions, with fragmentation rates exhibiting a minimum in the pH range 5 to 6; therefore, the overall fragmentation pattern observed for a mAb is a complex result of structural and solvent conditions. A critical review of the techniques used to monitor fragmentation is also presented; usually a compromise has to be made between a highly sensitive method with good fragment separation and the capability to identify the cleavage site. The effect of fragmentation on the function of a mAb must be evaluated on a case-by-case basis depending on whether cleavage sites are observed in the variable or constant regions, and on the mechanism of action of the molecule.
Journal of Virology | 2017
Sha Ha; Fengsheng Li; Matthew C. Troutman; Daniel C. Freed; Aimin Tang; John W. Loughney; Dai Wang; I-Ming Wang; Josef Vlasak; David Nickle; Richard R. Rustandi; Melissa Hamm; Pete DePhillips; Ningyan Zhang; Jason S. McLellan; Hua Zhu; Stuart P. Adler; Michael A. McVoy; Zhiqiang An; Tong-Ming Fu
ABSTRACT Human cytomegalovirus (HCMV) is the leading cause of congenital viral infection, and developing a prophylactic vaccine is of high priority to public health. We recently reported a replication-defective human cytomegalovirus with restored pentameric complex glycoprotein H (gH)/gL/pUL128-131 for prevention of congenital HCMV infection. While the quantity of vaccine-induced antibody responses can be measured in a viral neutralization assay, assessing the quality of such responses, including the ability of vaccine-induced antibodies to cross-neutralize the field strains of HCMV, remains a challenge. In this study, with a panel of neutralizing antibodies from three healthy human donors with natural HCMV infection or a vaccinated animal, we mapped eight sites on the dominant virus-neutralizing antigen—the pentameric complex of glycoprotein H (gH), gL, and pUL128, pUL130, and pUL131. By evaluating the site-specific antibodies in vaccine immune sera, we demonstrated that vaccination elicited functional antiviral antibodies to multiple neutralizing sites in rhesus macaques, with quality attributes comparable to those of CMV hyperimmune globulin. Furthermore, these immune sera showed antiviral activities against a panel of genetically distinct HCMV clinical isolates. These results highlighted the importance of understanding the quality of vaccine-induced antibody responses, which includes not only the neutralizing potency in key cell types but also the ability to protect against the genetically diverse field strains. IMPORTANCE HCMV is the leading cause of congenital viral infection, and development of a preventive vaccine is a high public health priority. To understand the strain coverage of vaccine-induced immune responses in comparison with natural immunity, we used a panel of broadly neutralizing antibodies to identify the immunogenic sites of a dominant viral antigen—the pentameric complex. We further demonstrated that following vaccination of a replication-defective virus with the restored pentameric complex, rhesus macaques can develop broadly neutralizing antibodies targeting multiple immunogenic sites of the pentameric complex. Such analyses of site-specific antibody responses are imperative to our assessment of the quality of vaccine-induced immunity in clinical studies.
Coleopterists Bulletin | 2002
Josef Vlasak; Katerina Vlasakova
Abstract A summary of Massachusettss records of Cerambycidae reported in the literature is presented, including our own records of 132 species from years 1999 to 2001. Altogether it represents a total of 198 species, from which 27 species collected during our study are noted from Massachusetts for the first time. Host plants for 106 species are presented, including 60 new host plant records. Host plant and biology of Hesperophanes pubescens (Haldeman) is discussed for the first time.
Vaccine | 2016
Josef Vlasak; Van M. Hoang; Sianny Christanti; Richard Peluso; Fengsheng Li; Timothy D. Culp
Despite a 40-year effort, an effective vaccine against human cytomegalovirus (HCMV) remains an unmet medical need. The discovery of potent neutralizing epitopes on the pentameric gH complex (gH/gL/UL128/130/131) has reenergized HCMV vaccine development. Our whole-virus vaccine candidate, currently in a Phase I clinical trial, is based on the attenuated AD169 strain with restored expression of the pentameric gH complex. Given the complexity of a whole-virus vaccine, improved analytical methods have been developed to better characterize heterogeneous viral particles released from infected cells during vaccine production. Here we show the utility of a commercial flow cytometer for the detection of individual HCMV particles, either via light scattering or using fluorescence after labeling of specific antigens. Rapid measurements requiring minimal material provide near real-time information on particle concentration, distributions of different particle types, and product purity. Additionally, utilizing immunoreagents has allowed us to characterize the distribution of key antigens across individual particles and particle types.
Coleopterists Bulletin | 2016
Josef Vlasak; Robert A. Androw
Abstract Leptostylopsis grandis Vlasak and Androw, new species, is described from Puerto Rico. A brief history of the revisional studies on the Caribbean members of the genus is presented. Morphological characters separating the new species from the closely related species Leptostylopsis argentatus (Jacquelin du Val) are discussed, and a modification to the key to the species of Leptostylopsis Dillon occurring in Puerto Rico is presented.
Journal of Pharmaceutical Sciences | 2008
Roxana Ionescu; Josef Vlasak; Colleen Price; Marc Kirchmeier
Journal of the American Chemical Society | 2007
Steven L. Cohen; Colleen Price; Josef Vlasak