Modeling of the Biological Activity of Monoclonal Antibodies Based on the Glycosylation Profile.

The influence of the glycosylation profile of IgG on biological activity is known, but it is not clear which glycoforms have the highest impact on the main mechanism of action. The aim of this study was to design a mathematical model for predicting the antibody-dependent cellular cytotoxicity (ADCC) activity and the Fc gamma IIIa receptors' (FcɣRIIIa) relative binding of rituximab drug products based on their glycosylation profile. An additional goal was to identify the glycoforms that have the greatest impact on these mechanisms of action. For these purposes, the glycosylation profile was examined by hydrophilic interaction ultra-performance liquid chromatography (HILIC-UPLC), ADCC was assessed using a Promega kit, and FcɣRIIIa's binding affinity was assessed by surface plasmon resonance (SPR) analysis of a group of >50 rituximab drug products. Based on the results, mathematical models for the ADCC and FcɣRIIIa binding affinity prediction were designed using JMP 13.2.0. The quality of the model and the influence of sample size and heterogeneity on the reliability were verified. The results allow for the evaluation of rituximab drug products' activity based on their glycosylation profile and show that with a sufficiently large and differentiated dataset, it is possible to generate models for different monoclonal antibodies.

Toward Shortened the Time-to-Market for Biopharmaceutical Proteins: Improved Fab Protein Expression Stability Using the Cre/lox System in a Multi-Use Clonal Cell Line.

Stable gene integration and rapid selection of high-expressing clones are important when developing biopharmaceutical systems to produce a protein of interest. According to regulatory guidelines, the final production clones should be stable through multiple cell generations. To achieve long-term stable expression of Fab genes via recombinase-mediated cassette exchange (RMCE), we modified mutual configurations of the lox sequences. By inversion of the spacer orientation, we avoided the loss of the integrated gene after several dozen cycles of cell division. This feature also prevents reversible transgene integration. Although the RMCE allows us to generate transgenic lines rapidly relative to current methods, it remains difficult to obtain stable industrial cell lines for long-term culturing and for the initial development stage. In this study, we present an approach to shortening the timeline for therapeutic protein development. Our approach provides easy access to the same clonal cell line in the initial development phase, and also for the production of biopharmaceutical proteins.

Vaccination with a cocktail of Ancylostoma ceylanicum recombinant antigens leads to worm burden reduction in hamsters.

Hookworms, a group to which Ancylostoma ceylanicum belongs, are gastrointestinal nematodes that infect more than 700 million people around the world. They are a leading cause of anemia in developing countries. In order to effectively prevent hookworm infections research is conducted to develop an effective vaccine using recombinant antigens of the parasite. The aim of this study was to examine the influence of the hosts' on protection against ancylostomiasis and the shaping of the humoral immune response among Syrian hamsters after immunization with a cocktail of five A. ceylanicum recombinant antigens. Ace-ASP-3, Ace-ASP-4, Ace-APR-1, Ace-MEP-6 and Ace-MEP-7 were obtained in the pET expression system. Immunization with a vaccine cocktail resulted in a 33.5% worm burden reduction. The immunogenicity of the recombinant proteins were determined using ELISA. Statistical analysis showed that vaccinated hamsters developed stronger humoral responses to four of five recombinant antigens (the exception being Ace-ASP-3) compared to hamsters from the control group.

Hamsters vaccinated with Ace-mep-7 DNA vaccine produced protective immunity against Ancylostoma ceylanicum infection.

Hookworms are intestinal nematodes that infect up to 740 million people, mostly in tropical and subtropical regions. Adult worms suck blood from damaged vessels in the gut mucosa, digesting hemoglobin using aspartic-, cysteine- and metalloproteases. Targeting aspartic hemoglobinases using drugs or vaccines is therefore a promising approach to ancylostomiasis control. Based on homology to metalloproteases from other hookworm species, we cloned the Ancylostoma ceylanicum metalloprotease 7 cDNA (Ace-mep-7). The corresponding Ace-MEP-7 protein has a predicted molecular mass of 98.8 kDa. The homology to metallopeptidases from other hookworm species and its predicted transmembrane region support the hypothesis that Ace-MEP-7 may be involved in hemoglobin digestion in the hookworm gastrointestinal tract, especially that our analyses show expression of Ace-mep-7 in the adult stage of the parasite. Immunization of Syrian golden hamsters with Ace-mep-7 cDNA resulted in 50% (p < 0.01) intestinal worm burden reduction. Additionally 78% (p < 0.05) egg count reduction in both sexes was observed. These results suggest that immunization with Ace-mep-7 may contribute to reduction in egg count released into the environment during the A. ceylanicum infection.

Ancylostoma ceylanicum metalloprotease 6 DNA vaccination induces partial protection against hookworm challenge infection.

Hookworms are blood feeding intestinal nematodes that infect more than 500 million people and cause iron deficiency anemia. Infected children suffer from physical and cognitive growth retardation. Because of potential anthelminthic drug resistance, the need for vaccine development is urgent. Numerous antigens have been tested in animal models as vaccines against hookworm infection, but there is no effective human vaccine. We cloned a cDNA encoding Ancylostoma ceylanicum metalloprotease 6 (Acemep-6). Ace-MEP-6 is a protein with a predicted molecular mass of 101.87 kDa and based on computational analysis it is very likely to be engaged in food processing via hemoglobin digestion. Groups of hamsters were immunized with an Ace-mep-6 cDNA vaccine, either once or three times. Animals that were administered one dose developed high resistance (80%, p < 0.01) against challenge infection, whereas triple immunization resulted in no worm burden reduction. These results suggest that DNA vaccines can be powerful tools in ancylostomiasis control, although the mechanisms through which protection is conferred remain unclear.

Evaluation of the immune response of male and female rats vaccinated with cDNA encoding a cysteine proteinase of Fasciola hepatica (FhPcW1).

Not only do males and females of many species vary in their responses to certain parasitic infections, but also to treatments such as vaccines. However, there are very few studies investigating differences among sexes following vaccination and infection. Here we demonstrate that female Sprague-Dawley rats vaccinated with cDNA encoding a recently discovered cysteine proteinase of Fasciola hepatica (FhPcW1) develop considerably lower liver fluke burdens after F. hepatica infection than their male counterparts. This is accompanied by differences in the course of their immune responses which involve different eosinophil and monocyte responses throughout the study as well as humoral responses. It is evident that host gender influences the outcome of parasitic infections after vaccination and research on both sexes should be considered when developing new treatments against parasites.

Microarray analysis of rat immune responses to liver fluke infection following vaccination with Fasciola hepatica phosphoglycerate kinase.

Fasciolosis is a considerable veterinary problem, causing significant economic losses to livestock production and the food industry. Research in the area of Fasciola hepatica infection immunology is necessary to improve our knowledge about immunological mechanism evoked by the parasite and to develop new control strategies against liver fluke. In this present paper we analyzed the expression levels of cytokines in rats infected with F. hepatica following immunization with F. hepatica phosphoglycerate kinase - a novel vaccine antigen. Immune response analysis using microarray was undertaken six weeks after infection. Expression levels of INF-γ and IL-4, which are characteristic cytokines secreted during Th1-like and Th2-like immune responses, respectively, were unchanged in vaccinated animals as compared to control animals. This indicates the vaccine did not influence the major modulation of immune responses typically observed during Fasciola infections, however, other subtle but significant variations were observed that indicated altered inflammatory and possibly T helper cell responses. A significant rise in IL-12α chain expression levels was observed. Expression levels of TNF-α and some related molecules, such as ADAM17, FasL, CD40 and TRAF3 were also elevated. Expression levels of molecules involved in IL-1 signaling pathways were reduced, although a rise in IL-1α expression was noted.

Detection of Giardia intestinalis assemblages A, B and D in domestic cats from Warsaw, Poland.

Giardia intestinalis is a complex species divided into 7 assemblages (A - G). Two of them (A and B) are infective for both humans and animals. In cats four assemblages can occur: A, B, D, and F Assemblages A and B infect either cats, dogs and humans, assemblage D infects cats and dogs and assemblage F only cats. The purpose of this study was to determine the prevalence and genotypes of G. intestinalis in cats from Warsaw. From November 2006 to March 2007 a hundred sixty samples of stool were collected and examined by light microscopy. G. intestinalis cysts were detected in 3.75% of samples. DNA extracted from positive samples was used as template for PCR-RFLP using Giardia specific primers and the amplicons were sequenced. A comparison of the obtained DNA sequences with the Giardia sequences in the GeneBank database revealed assemblage A in 1.25% of the investigated cats, assemblage B in 1.25% and D in 1.25%.

Blocking Fasciola hepatica's energy metabolism - a pilot study of vaccine potential of a novel gene - phosphoglycerate kinase.

Fasciola hepatica infections cause huge economic losses to livestock production and are a serious problem in human and veterinary medicine. The main difficulty in the control of infections is progressing drug resistance. Moreover, pharmacological therapy is expensive and harmful for the environment. The best way of prophylaxis against infections seems to be vaccination. A new generation of vaccines could be the best possible way of controlling fasciolosis. This paper is focused on first vaccination trials based on a new vaccine candidate antigen, F. hepatica phosphoglycerate kinase (FhPGK) performed on a rat model. We obtained protection levels ranging from 0% to 69% depending on the way of delivery and form of vaccine.

Prevalence of Babesia canis, Borrelia afzelii, and Anaplasma phagocytophilum infection in hard ticks removed from dogs in Warsaw (central Poland).

The purposes of this study were to specify the occurrence and prevalence of Babesia canis, Borrelia burgdorferi sensu lato, and Anaplasma phagocytophilum in ticks removed from dogs in Warsaw, and to determine the Borrelia species occurring in Ixodes ricinus ticks. Among 590 collected ticks, 209 were identified as I. ricinus, and 381 as Dermacentor reticulatus. DNA of B. canis was detected in 11% of D. reticulatus ticks. We found that 6.2% of I. ricinus ticks harbored B. burgdorferi s.l. specific DNA and 2.9% harbored A. phagocytophilum DNA. In these samples sequencing of the detected Borrelia amplicon confirmed infection with Borrelia afzelii genospecies. New sequences were submitted to the GenBank database (accession no. EU152128, EU152127, EU152126). This work is the first detection of B. afzelii and A. phagocytophilum in ticks from Warsaw, and the first survey for the prevalence of B. canis, B. afzelii, and A. phagocytophilum in ticks in central Poland.

[DNA microarrays in parasitology and medical sciences]. / Mikromacierze DNA i ich wykorzystanie w parazytologii i medycynie.

The article presents the current knowledge on the microarray technique and its applications in medical sciences and parasitology. The first part of the article is focused on the technical aspects (microarray preparation, different microarray platforms, probes preparation, hybridization and signal detection). The article also describes possible ways of proceeding during laboratory work on organism of which the genome sequence is not known or has been only partially sequenced. The second part of the review describes how microarray technique have been, or possibly will be, used for better understanding parasite life cycles and development, host-parasite relationship, comparative genomics of virulent organisms, develpoment vaccines against the most virulent parasites and host responses to infection.