Peptide-based vaccination against VEGF results in efficient antitumour activity

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vaccine ampule oncology news australia_800x500A research team including professor Peter Timmerman of the University of Amsterdam’s Van ‘t Hoff Institute for Molecular Sciences (HIMS) has developed a peptide-based vaccine enabling a successful active antitumour immunisation therapy targeting the growth hormone Vascular Endothelial Growth Factor (VEGF).

Suppression of tumour growth has already been established in mice and exploratory studies in patients are now underway at VU Medical Center (Amsterdam).

The encouraging preclinical results were published last week in PNAS (Proceedings of the National Academy of Sciences of the USA).

The vascular endothelial growth factor (VEGF) is a pivotal growth factor for angiogenesis (blood vessel formation) in tumour tissue.

Therefore, it has been  frequently investigated as a target in anticancer therapy.

Its inhibition by the monoclonal anti-VEGF antibody bevacizumab  has already improved survival in patients with several types of cancer.

There are, however, limitations to the effectiveness of this passive immunotherapy strategy since it does not stimulate a patient’s immune system to actively respond to a disease in the way a vaccine does.

The starting point of the research now reported in PNAS is that a VEGF vaccination has the potential to outperform the current clinical anti-VEGF treatment strategies.

Vaccine oncology news australiaVaccination will not only provide durable VEGF suppression, it is also expected that the induced antibodies will have superior VEGF-neutralising ability in comparison to bevacizumab.

Furthermore, vaccination requires only a few intramuscular injections and reduces the number of hospital visits in comparison to treatment with bevacizumab.

However, vaccination with intact VEGF has major drawbacks such as unwanted biological activity and weak immunogenicity.

The strategy pursued in the current research therefore is to use a VEGF mimicking peptide as a vaccine.

The major challenge here was to identify the minimal peptide able to generate antisera with potent VEGF-neutralising capacity and tumour-reducing capabilities.

mouse model study_oncology news australiaA total of 33 peptide mimics of VEGF with varying levels of structural complexity (linear, conformational, and discontinuous) were designed, synthesised, and tested for the ability to generate potent antisera.

It was established that induction of neutralising antibodies with tumour-growth-inhibiting power was only successful for a 3D-structured 79-mer peptide with a fully intact cysteine-knot fold (covering the complete discontinuous binding site of bevacizumab).

Eradication of tumour growth using this peptide was demonstrated in two different tumour models (mice).

It thus became clear that enforcing a native-like, secondary structure in the peptide is the key to success for inducing neutralising anti-VEGF antibodies with tumour-inhibiting power.
[hr] Source: PNAS


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