Alexia van Weijnen scite author profile

Alexia van Weijnen

2Publications

64Citation Statements Received

84Citation Statements Given

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Affiliations

Vrije Universiteit Brussel

Publications

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Intralymphatic mRNA vaccine induces CD8 T-cell responses that inhibit the growth of mucosally located tumours

Bialkowski

Weijnen

Jeught

et al. 2016

Sci Rep

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The lack of appropriate mouse models is likely one of the reasons of a limited translational success rate of therapeutic vaccines against cervical cancer, as rapidly growing ectopic tumours are commonly used for preclinical studies. In this work, we demonstrate that the tumour microenvironment of TC-1 tumours differs significantly depending on the anatomical location of tumour lesions (i.e. subcutaneously, in the lungs and in the genital tract). Our data demonstrate that E7-TriMix mRNA vaccine-induced CD8+ T lymphocytes migrate into the tumour nest and control tumour growth, although they do not express mucosa-associated markers such as CD103 or CD49a. We additionally show that despite the presence of the antigen-specific T cells in the tumour lesions, the therapeutic outcomes in the genital tract model remain limited. Here, we report that such a hostile tumour microenvironment can be reversed by cisplatin treatment, leading to a complete regression of clinically relevant tumours when combined with mRNA immunization. We thereby demonstrate the necessity of utilizing clinically relevant models for preclinical evaluation of anticancer therapies and the importance of a simultaneous combination of anticancer immune response induction with targeting of tumour environment.

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Adjuvant-Enhanced mRNA Vaccines

Bialkowski

Jeught

Renmans

et al. 2016

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Recent advances in molecular biology have led to dramatic enhancement of the stability of in vitro transcribed (IVT) messenger RNA (mRNA) and improvement in its translational efficacy. Nowadays, mRNA-based vaccines represent a promising approach in the field of anticancer immunotherapy, gaining attention over the earlier-established bacteria-, virus-, or cell-based vaccination approaches. Here, we present the experimental procedures employed in our laboratory to induce anticancer immune responses in different murine tumor models using IVT mRNA encoding for immune activation signals and antigens of interest.

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