ABSTRACT
Vaccine stability is a key factor to preserve vaccine potency and efficiency, as its potency decays over time and during temperature changes. The choice of stabilizers for viral vaccine formulation depends mainly on the vaccine type. More specifically, the choice is determined by the properties and structure of the active pharmaceutical ingredient or viral antigen(s) in the vaccine. In this review, we analyze key formulation components in different vaccine types. We discuss some of the major driving forces in the improvement of vaccine thermostability: increasing demand for cost-effective production of thermostable vaccine with lower dependency on cold chain, stricter regulatory policies for animal-origin materials, and the return of the research investment from the industry point of view. Moreover, we provide an overview of existing licensed viral vaccine types, including their production platform, presentation, delivery route, known stabilizers content and available thermostability data. In addition, we compare the data of licensed vaccines to published experimental vaccines, in order to discuss the current trends in vaccine stabilizers development.
Subject(s)
Vaccine Potency , Viral Vaccines/chemistry , Animals , Antigens, Viral/chemistry , Chemistry, Pharmaceutical/methods , HumansABSTRACT
The human Dialyzed Leukocyte Extract (DLE) is a heterogeneous mix of oligopeptides of <10kDa, extracted from leukocytes of healthy donors. There is significant clinical evidence of improvement using DLE during treatment of allergies, cancer,immunodeficiencies, and in mycotic and viral infections. Nevertheless, the DLE exact nature and mechanism of action have been elusive for more than 50 years. DLE biological activity testing is necessary in DLE production and quality control. Both in vitro and in vivo assays exist: E-rosette test, induction of delayed type hypersensitivity in mice, leukocyte migration and IFN-γ secretion. The animal-origin materials and in vivo assays convey a considerable logistic, ethic and economic burden, meanwhile the available in vitro assays have been reported with limited reproducibility and sometimes contradictory results. Here we are reporting a new DLE biological activity cell-based assay. The A20 and Jurkat cell lines were treated with (+Aza) or without (-Aza) azathioprine, DLE (+DLE) or both (+Aza/+DLE). After 72h, the cell proliferation was analyzed by the MTT or BrdU incorporation assays. In +Aza/+DLE treated cells, we observed a significant higher proliferation, when compared with +Aza/-DLE. In the absence of Aza, cells did not present any proliferation difference between -DLE or +DLE treatments. Both assays, MTT and BrdU showed similar results, being the MTT test more cost effective and we select it for validation as DLE biological assay using Jurkat cells only. We tested three different lyophilized DLE batches and we found consistent results with acceptable assay reproducibility and linearity. The DLE capacity for rescuing Jurkat cell proliferation during +Aza treatment was consistent using different liquid and lyophilized DLE batches, presenting also consistent chromatographic profiles. Finally, DLE treatment in Jurkat cells did not result into significant IL-2 of IFN-γ secretion, and known lymphocyte proliferative drugs failed to rescue Jurkat cells viability in presence of +Aza, as +DLE treatment did in our MTT assay. In conclusion, our new cell-based MTT assay has excellent DLE biological activity consistency, robustness and is cost effective, presenting important advantages over previous DLE activity in vitro and in vivo assays.
Subject(s)
Azathioprine/pharmacology , Cell Proliferation/drug effects , Jurkat Cells/drug effects , Jurkat Cells/physiology , Leukocytes/drug effects , Leukocytes/physiology , Transfer Factor/pharmacology , Animals , Cell Line, Tumor , Cost-Benefit Analysis/methods , Humans , Mice , Reproducibility of ResultsABSTRACT
Constitutive activation of the JAK-STAT pathway is frequent in cancer and contributes to oncogenesis. Here, we took advantage of the Ba/F3 cell line, a murine proB cell line dependent on IL-3 for growth, to analyse mechanisms of constitutive STAT activation in vitro. Cytokine-independent and tumorigenic Ba/F3 cell lines were derived from a two-step selection process. Cells transfected with a defective IL-9 receptor acquire IL-9 responsiveness during a first step of selection, and progress after a second selection step to autonomously growing tumorigenic cells. Microarray analysis pointed to JAK1 overexpression as a key genetic event in this transformation. Overexpression of JAK1 not only increased the sensitivity to IL-9 but also allowed a second selection step toward cytokine-independent growth with constitutive STAT activation. This progression was dependent on a functional FERM and kinase JAK1 domain. Similar results were observed after JAK2, JAK3 and TYK2 overexpression. All autonomous cell lines showed an activation of STAT5, ERK1-2 and AKT but only TYK2-overexpressing cell lines showed a constitutive activation of STAT3. Thus, JAK overexpression can be considered as one of the oncogenic events leading to the constitutive activation of the JAK-STAT pathway.