Development of novel probes for enterovirus B group to study uncoating and infection
Enterovirus B group (EV-B) viruses are important human pathogens which cause
a variety of diseases from mild respiratory illnesses to more severe acute
infections such as myocarditis and meningitis. EV-Bs have also been associated
with chronic infections and autoimmune diseases such as type I diabetes.
Because of their significance, better and more accurate methods are necessary to
track and visualize viruses in vitro and in vivo. This thesis focus on the
development of novel probes to label viruses site-specifically and track infection
in vitro. First, we established a covalent conjugation between gold nanocluster
markers and EV-B viruses. We were able to visualize through electron
microscopy site-specific labelling of cysteines on the viral capsid surface. Second,
we developed probes targeted to the hydrophobic pocket of the enterovirus
capsid. The probes were synthesized based on a hydrophobic pocket binding
drug pleconaril. Successful binding of the probe was confirmed with nuclear
magnetic resonance measurements. The probe was conjugated to a fluorescent
KU Orange 2 dye or Au102 gold nanocluster, and further studied by confocal and
electron microscopy. The third section of this thesis studied the infectious entry
pathway of three different coxsackievirus B1 (CVB1) strains. All of the studied
strains appeared to use the previously suggested EV-B group entry pathway:
macropinocytic entry dependent on Na+/H+ and Rac1 and independent of
acidification. However, strain specific kinetic differences in the infection of non-
polarized cells were revealed. Importantly, one of the CVB1 strains infected cells
independently from endosomal sorting complexes required for transport
(ESCRT) driven multivesicular bodies (MVBs), and initiated the virus uncoating
with slower kinetics. The results indicate that the ESCRT driven biogenesis of
MVBs is required for efficient uncoating and infection. Thus, the viruses show
remarkable similarities to other well studied EV-B viruses.
...
Publisher
University of JyväskyläISBN
978-951-39-6868-7ISSN Search the Publication Forum
1456-9701Keywords
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- Väitöskirjat [3598]
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