Animal-Friendly Affinity Reagents: Replacing the Needless in the Haystack.

The multibillion-dollar global antibody industry produces an indispensable resource but that is generated using millions of animals. Despite the irrefutable maturation and availability of animal-friendly affinity reagents (AFAs) employing naïve B lymphocyte or synthetic recombinant technologies expressed by phage display, animal immunisation is still authorised for antibody production. Remarkably, replacement opportunities have been overlooked, despite the enormous potential reduction in animal use. Directive 2010/63/EU requires that animals are not used where alternatives exist. To ensure its implementation, we have engaged in discussions with the EU Reference Laboratory for alternatives to animal testing (EURL ECVAM) and the Directorate General for Environment to carve out an EU-led replacement strategy. Measures must be imposed to avoid outsourcing, regulate commercial production, and ensure that antibody producers are fully supported.

Adaptive immune response to whole cell pertussis vaccine reflects vaccine quality: A possible complementation to the Pertussis Serological Potency test.

Whole cell Bordetella pertussis (wP) vaccines are still used in many countries to protect against the respiratory disease pertussis. The potency of whole-cell pertussis vaccine lots is determined by an intracerebral challenge test (the Kendrick test). This test is criticized due to lack of immunological relevance of the read-out after an intracerebral challenge with B. pertussis. The alternative in vivo test, which assesses specific antibody levels in serum after wP vaccination, is the Pertussis Serological Potency test (PSPT). Although the PSPT focuses on a parameter that contributes to protection, the protective immune mechanisms after wP vaccination includes more elements than specific antibody responses only. In this study, additional parameters were investigated, i.e. circulating pro-inflammatory cytokines, antibody specificity and T helper cell responses and it was evaluated whether they can be used as complementary readout parameters in the PSPT to assess wP lot quality. By deliberate manipulation of the vaccine preparation procedure, a panel of high, intermediate and low quality wP vaccines were made. The results revealed that these vaccines induced similar IL-6 and IP10 levels in serum 4h after vaccination (innate responses) and similar antibody levels directed against the entire bacterium. In contrast, the induced antibody specificity to distinct wP antigens differed after vaccination with high, intermediate and low quality wP vaccines. In addition, the magnitude of wP-induced Th cell responses (Th17, Th1 and Th2) was reduced after vaccination with a wP vaccine of low quality. T cell responses and antibody specificity are therefore correlates of qualitative differences in the investigated vaccines, while the current parameter of the PSPT alone was not sensitive enough to distinguish between vaccines of different qualities. This study demonstrates that assessment of the magnitude of Th cell responses and the antigen specificity of antibodies induced by wP vaccination could form valuable complementary parameters to the PSPT.

In vitro innate immune cell based models to assess whole cell Bordetella pertussis vaccine quality: a proof of principle.

Lot release testing of vaccines is primarily based on animal models that are costly, time-consuming and sometimes of questionable relevance. In order to reduce animal use, functional in vitro assays are being explored as an alternative approach for the current lot release testing paradigm. In this study, we present an evaluation of APC platforms assessing innate immune activation by whole cell Bordetella pertussis (wP) vaccines. Primary monocytes, monocyte-derived DC (moDC) and human monocyte/DC cell lines (MonoMac6 and MUTZ-3) were compared for their capacity to respond to wP vaccines of varying quality. To produce such vaccines, the production process of wP was manipulated, resulting in wP vaccines covering a range of in vivo potencies. The responses of MUTZ-3 cells and primary monocytes to these vaccines were marginal and these models were therefore considered inappropriate. Importantly, moDC and MonoMac6 cells responded to the wP vaccines and discriminated between vaccines of varying quality, although slight variations in the responses to wP vaccines of similar quality were also observed. This study provides a proof of principle for the use of in vitro APC platforms as part of a new strategy to assess wP vaccine lot consistency, though careful standardisation of assay conditions is necessary.

[Developments in the area of animal experiments in biomedical research]. / Ontwikkelingen op het gebied van dierproeven in het biomedisch onderzoek.

Although many would like to see it differently, animal experiments are still very important in biomedical research. The solution to fundamental questions in the area of cancer or chronic diseases as well as the legally-required registration and release of vaccines or drugs are all impossible without studies on laboratory animals. - The point of departure in existing legislation on animal experimentation is the principle of 'responsible use'. Important aspects in this connection are the education and training of those working with laboratory animals, the monitoring of animal welfare, and the ethical evaluation of proposed studies. - In addition, for various reasons, substantial attention is being given to possible ways of replacing, reducing or refining the use of experimental animals, the so-called 3Rs. Significant progress has been made in this field. - The number of animals used for research in the Netherlands has been reduced by about 50% in the last 25 years. In recent years, however, there is a trend of increase and decrease due to scientific and social developments such as the availability of genetically modified animals and the increased priority given to product safety. - Consequently, animal experimentation will for the time being remain indispensable in biomedical research, although its role will shift in the direction of the confirmation of results obtained by animal-free methods.

Decreased sensitivity to diphtheria toxin of Vero cells cultured in serum-free medium.

Vero cell cultures are used in the quality control of Diphtheria vaccines: to estimate vaccine potency and to determine residual toxicity and reversion to toxicity. The impact of replacing foetal calf serum containing medium (SCM) by serum free media (SFM) on the sensitivity of Vero cells to Diphtheria Toxin was studied. Compared to SCM, SFM showed an eight-fold decrease in sensitivity to Diphtheria Toxin. This decrease was almost immediate, indicating that this phenomenon was not caused by a change in membrane structure or protein expression. We investigated the effect of SFM on Diphtheria Toxin in order to determine the cause of the decrease in sensitivity. Our results show that oligopeptides, which are often used in SFM as part of the replacement of foetal calf serum, are the most likely cause.