vaccines have been approved to be administered in parts of the world. The Ad5-
nCOV developed by CanSino Biologics Inc. and Beijing Institute of Biotechnology
used a HAd5 as the vector [38]. In Europe, Janssen Vaccines & Prevention B.V.
(Johnson & Johnson) developed Ad26.COV2-S vaccine with a rare HAd26
vector [41]. Gamaleya Research Institute in Russia used a combination of HAd5
and HAd26 to develop Gam-COVID-Vac/SputnikV vaccine [25]. The University of
Oxford collaborated with AstraZeneca to develop ChAdOX1-nCoV based on a
chimpanzee (ChAdY25) vector [43].
11.3
VESICULAR STOMATITIS VIRUS (VSV) VECTORED VACCINES
11.3.1
VESICULAR STOMATITIS VIRUS
Vesicular stomatitis virus (VSV) is a member of the Rhabdoviridae family in the
Vesiculovirus genus [62]. Vesiculovirus genus members are widely distributed in
nature and mainly infect biting insects and livestock. According to the geographic
distribution, at least 14 different phylogenetical and serological members in the
Vesiculovirus genus are divided into two groups [63]. One includes the Indiana (IND)
and New Jersey (NJ) serotypes of VSV, which were found in the Americas. The other
was found in the Eastern Hemisphere including Chandipura, Yug Bogdanovac, and
Isfahan [62]. The symptom of VSV infection of livestock is transient and accom-
panied by low level of viremia without a major virus spread. There are rare cases that
VSV infects humans, but only when they are exposed to VSV in laboratories or when
they come in close contact with the infected animals. Humans can be infected through
skin and mucous tissues, while some cases are reported to be infected by insect bites.
Human infection by VSV can be accompanied with disease symptoms including
myalgia, fever, and headache, which resolve within days [64].
The standard VSV particle is a bullet-shaped, single-strand, negative-sense RNA
virus with 65 × 180 nm. The viral genome is about 11 kilobases, which encodes five
major viral proteins including nucleoprotein (N), phosphoprotein (P), matrix
protein (M), glycoprotein (G), and the viral polymerase (L) [65]. The N protein as-
sociates to form viral nucleocapsid for genomic RNA, which serves as functional
template for viral replication and transcription. This protein is also the most abundant
protein expressed in infected cells. The M protein is the main protein in the VSV
particle. The M protein has various functions in infected cells. This protein can
regulate the viral transcription, inhibit the gene expression of host cells, and contribute
to virus budding. The P and L genomic motifs associate to express the viral RNA
polymerase with the functions of transcriptase and replicase. The G protein is a
transmembrane glycoprotein on the virus surface with a trimeric spike-like structure.
The G protein is responsible for virus attachment to the receptors of host cells.
11.3.2
CONSTRUCTION AND PRODUCTION PROCESS OF VSV VECTORS
11.3.2.1
Pseudotype and Recombinant VSV
VSV is widely used as a viral vector in various fields including vaccines, gene
therapy, and oncolytic virotherapy. Most virus-based vectors with envelopes are
Vectored vaccines
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