1 |
Significance of HIV-1 genetic subtypes /Alaeus, Annette, January 1900 (has links)
Diss. (sammanfattning) Stockholm : Karol. inst. / Härtill 6 uppsatser.
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2 |
Inhibition of Human Immunodeficiency virus replication through small RNA-induced gene silencing of HIV-1 Tat specific factor 1Green, Victoria Andress 14 February 2012 (has links)
Ph.D., Faculty of Health Sciences, University of the Witwatersrand, 2011 / The
HIV-‐1
pandemic
continues
unabated.
Although
treatments
exist
that
can
substantially
alleviate
the
morbidity
and
mortality
associated
with
HIV,
there
is
still
a
need
for
improved
anti-‐HIV
treatments
that
reduce
toxicities
and
administration
frequency
and
mediate
sustained
inhibition
of
viral
replication.
Given
the
high
mutability
and
variability
of
the
virus,
a
strategy
that
is
garnering
increasing
focus
is
the
targeting
of
host
factors
that
the
virus
requires
to
replicate,
so-‐called
HIV-‐dependency
factors
(HDFs).
It
is
hoped
this
will
reduce
the
emergence
of
viral
drug
resistance.
A
number
of
genome-‐wide
screens
have
been
performed
to
identify
HDFs,
although
many
remain
to
be
validated,
particularly
in
relevant
cells
lines.
An
objective
of
this
thesis
was
to
validate
three
host
factors
as
HDFs,
in
both
TZM-‐bl
reporter
and
T
cell-‐derived
cell
lines,
and
to
examine
their
potential
as
anti-‐HIV-‐1
therapeutic
targets
through
exploitation
of
the
cellular
gene
silencing
pathway,
RNA
interference
(RNAi).
These
were
HIV-‐1
Tat
specific
factor
1
(HTATSF1),
DEAD
(Asp-‐Glu-‐Ala-‐Asp)
box
polypeptide
3,
X-‐
linked
(DDX3X)
and
SWI/SNF
related,
matrix
associated,
actin
dependent
regulator
of
chromatin,
subfamily
b,
member
1
(SMARCB1),
selected
because
they
had
been
previously
implicated
in
HIV-‐
1
pathogenesis.
The
well-‐characterised
HDF,
PC4
and
SFRS1
interacting
protein
1
(PSIP1)/lens
epithelium-‐derived
growth
factor
(LEDGF)/p75,
was
included
in
the
study
as
a
positive
control.
Cassettes
expressing
short
hairpin
RNAs
(shRNAs)
targeting
the
four
host
proteins
were
generated,
although
shRNAs
did
not
suppress
endogenous
ddx3x
mRNA
levels.
The
ability
of
shRNAs
to
inhibit
HIV-‐1
replication
in
the
reporter
cell
line,
TZM-‐bl,
was
examined.
These
HeLa-‐
derived
cells
are
permissive
for
R5-‐tropic
HIV-‐1
infection
and
contain
an
integrated
luciferase
gene
driven
by
the
viral
promoter.
shRNAs
mediated
a
dose-‐dependent
inhibition
of
luciferase
activity
in
cells
infected
with
a
HIV-‐1
subtype
B
molecular
clone
and,
although
production
of
the
viral
protein
p24
was
unaltered,
infectious
particle
production
was
decreased
in
cells
treated
with
a
shRNA
suppressing
HTATSF1.
Little
effect
was
observed
with
a
shRNA
targeting
SMARCB1,
suggesting
that
this
may
not
function
as
an
HDF
under
these
conditions.
No
effect
on
infectious
particle
production
was
seen
with
the
shRNA
targeting
PSIP1,
which
was
a
result
of
the
long
half-‐
life
of
this
protein,
highlighting
a
limitation
of
using
such
reporter
systems
for
HDF
validation.
Importantly,
shRNAs
were
not
associated
with
any
cytotoxic
effects
in
TZM-‐bl
cells.
Whether
HTATSF1
is
a
potential
therapeutic
target
was
interrogated
further
in
the
more
relevant
T
cell-‐derived
SupT1
cell
line.
Lentiviruses
were
used
to
generate
populations
where
>90%
had
one
copy
of
the
integrated
shRNA
expression
cassette.
Replication
of
the
subtype
B
molecular
clone
p81A-‐4
was
significantly
inhibited
in
the
shH1-‐expressing
SupT1
cell
line,
which
targets
HTATSF1,
for
over
14
days
post-‐infection,
although
inhibition
was
not
as
pronounced
asthat
observed
in
the
shP1-‐expressing
SupT1
cell
line,
which
targets
PSIP1.
In
contrast
to
a
previous
report,
no
change
in
the
ratio
of
unspliced
to
singly-‐
or
multiply-‐spliced
HIV-‐1
transcripts
were
detected
in
shH1-‐expressing
SupT1
cells,
suggesting
that
HTATSF1
does
not
function
as
a
splicing
cofactor
in
this
system.
A
slight
rebound
in
p24
levels
at
14
days
post-‐infection
was
accompanied
by
increased
HTATSF1
expression
and
a
decrease
in
the
percentage
of
cells
with
transgene
expression
in
the
population.
In
addition,
there
was
a
slight
decrease
in
shH1-‐derived
guide
strand
expression,
but
no
change
in
transcription
rates
of
the
htatsf1
gene,
suggesting
that
cells
within
the
population
with
shH1
expression
and
HTATSF1
suppression
may
have
a
growth
disadvantage.
Thus,
although
this
work
demonstrates
for
the
first
time
that
HTATSF1
functions
as
an
HDF
in
T
cell-‐derived
SupT1
cells,
it
may
not
constitute
a
viable
therapeutic
target.
A
second
objective
of
this
thesis
was
to
examine
the
feasibility
of
transcriptional
gene
silencing
(TGS)
of
HDFs
as
an
anti-‐HIV
strategy.
TGS
is
a
small
RNA-‐induced
gene
silencing
pathway
that
operates
through
chromatin
remodelling
with
the
potential
to
mediate
long-‐term
silencing
of
gene
expression.
Thus,
its
application
may
reduce
the
frequency
of
drug
administration
and
associated
toxicities.
Short
interfering
RNAs
(siRNAs)
targeting
the
htatsf1
promoter
were
able
to
reduce
target
mRNA
expression,
which
was
accompanied
by
decreased
htatsf1
transcription
rates
in
HEK293T
cells,
suggesting
silencing
via
a
TGS
mechanism.
The
htatsf1
silencing
inhibited
infectious
HIV-‐1
particle
production
from
TZM-‐bl
cells.
This
work
provides
proof
of
principle
that
TGS
induction
at
a
HDF
may
inhibit
HIV-‐1
replication.
siRNAs
targeting
the
ddx3x
promoter
did
not
induce
TGS.
To
examine
whether
gene
susceptibility
to
TGS
may
be
influenced
by
promoter
architectures,
49
promoter
features
were
examined
for
enrichment
in
genes
at
which
small
RNA-‐induced
TGS
has
been
reported.
Initially,
the
TGS
group
was
compared
to
a
random
set
of
2,000
promoters
and
then
all
other
promoters
in
the
genome.
To
control
for
gene
activation,
two
further
analyses
were
performed
comparing
the
TGS
group
features
to
those
from
promoters
active
in
the
THP-‐1
cell
line
and
housekeeping
genes.
Whilst
difficult
to
ascribe
differences
between
the
TGS
group
and
the
control
groups
to
anything
beyond
a
variation
in
the
proportion
of
active
genes
within
each
group,
there
was
enrichment
for
certain
promoter
features
that
are
independent
of
activity;
the
TGS
group
was
characterised
by
broad
transcription
start
regions,
high
CpG
content
and
a
single
expression
profile.
Moreover,
the
fraction
of
promoters
with
reported
non-‐coding
RNA
overlap
was
greater
in
the
TGS
group
than
the
control
groups.
Thus,
there
is
some
evidence
that
a
number
of
promoter
features
are
associated
with
TGS
susceptibility.
It
is
hoped
this
novel
analysis
will
facilitate
selection
of
future
TGS
targets,
including
HDFs.
In
summary,
the
work
presented
in
this
thesis
paves
the
way
for
development
of
improved
anti-‐HIV
therapies
involving
HDF-‐targeted
TGS-‐based
gene
therapies
that
mediate
sustained
inhibition
of
the
virus.
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3 |
The packaging and annealing of primer tRNALys3 in HIV-1 /Saadatmand, Jenan. January 2008 (has links)
Reverse transcription in HIV-1 (human immunodeficiency virus type 1) is initiated from a tRNA, tRNALys3, that is annealed to the primer binding site (PBS) in the 5' region of viral RNA. This tRNA, along with the other major tRNALys isoacceptors, tRNALys1,2 , is selectively packaged into HIV-1 during its assembly. The formation of a tRNALys packaging/annealing complex is believed to involve the interaction between a Gag/GagPol/viral complex with a lysyl-tRNA synthetase (LysRS)/tRNALys complex, with Gag interacting specifically with LysRS, and GagPol interacting with both Gag and tRNALys. In fact, Gag particles alone will package LysRS, but GagPol, which binds tRNA Lys, is also required for incorporation of the tRNALys. / The model we propose for the tRNALys packaging/annealing complex predicts a possible interaction between LysRS and Pol sequences in GagPol, which might facilitate transfer of tRNALys3 from LysRS to the reverse transcriptase (RT) thumb domain where tRNALys3 binds. In this work, we demonstrate that, in addition to its interaction with Gag, LysRS also interacts with sequences within the connection/RNaseH domains in RT. Since these RT domains are not required for tRNALys packaging into HIV-1, the LysRS/Pol interaction is probably not involved in the transfer of tRNALys3 to RT. The LysRS/Pol interaction may instead be involved in tRNALys3 annealing since the connection domain in RT has been found to be required for this process. Also, since an interaction has been reported between Gag and Pol sequences in GagPol, we also investigated whether the Gag/LysRS/Pol interaction played an important role in stabilizing the Gag/Pol interaction, and found, using siRNA to LysRS, that it did not. / tRNALys3 annealing to viral RNA is promoted by nucleocapsid sequences in Gag and by mature NCp7, and we have examined the roles of Gag and NCp7 in this process. Gag- and NC-facilitated tRNALys3 annealing to HIV-1 RNA were measured both in vivo and in vitro, indirectly by the ability of annealed tRNALys3 to prime reverse transcription, and directly by measuring the occupancy of the PBS by tRNALys3. While tRNALys3 annealing can be carried out by both Gag and NCp7, exposure (in vivo or in vitro) of the tRNALys3/viral RNA complex to NCp7 is required for optimum placement of the tRNALys3. This is indicated by 1) tRNALys3's reduced ability to incorporate the first dNTP, dCTP, and 2) its more ready displacement from the PBS by DNA synthesized from a downstream primer. / It has been previously demonstrated that APOBEC3G (A3G) can inhibit tRNA Lys3 annealing to viral RNA, and we have used A3G to further dissect the roles of Gag and NCp7 in annealing, both in vitro and in vivo. Experiments studying how APOBEC3G (A3G) inhibits tRNA Lys3 annealing indicate that in protease-positive viruses, Gag-facilitated tRNALys3 annealing may only playa minor role. In vivo and in vitro, A3G only inhibits NCp7-facilitated annealing, and not Gag-facilitated annealing. Nevertheless, while Gag is able to show 70-80% of the annealing efficiency of NCp7 in a protease-negative virus, A3G can reduce annealing efficiency in protease-positive viruses to 40%. This appears to be due to the fact that, in vitro, the presence of NCp7 makes prior Gag-facilitated annealing susceptible to A3G. This suggests that in wild type viruses, any Gag-facilitated annealing of tRNALys3 to viral RNA that does occur is altered through an A3G-susceptible re-annealing by NCp7.
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4 |
Human immunodeficiency virus type-1 distribution in South Africa and the relevance of genetic diversity on vaccine designVan Harmelen, Joanne Heidi 25 April 2017 (has links)
The overall aim of this project was to investigate HIV-1 genetic diversity in South Afri ca and to characterise the immune response in mice to a South African subtype C gp120. To investigate the relationship between subtype and mode of transmission, samples were collected from individuals infected by heterosexual and male homosexual transmission from patients attending local HIV/AIDS clinics in Cape Town (n=49) and Bloemfontein (n=4). Isolates were subtyped using heteroduplex mobility assay (HMA) based on the V3-V5 region of the env geneusing reference plasmids (2 B, 2 C and 1 D) representative of local subtypes. HMA identified four env subtypes: A, B, C and D. Subtype B viruses were found in 92.9% (26/28) of the male homosexual/bisexual group and subtype C viruses in 77.2% (17 /22) of the heterosexual group. Subtype B viruses were also identified in two heterosexual patients, one patient infected by blood transfusion and in two patients with. unknown mode of transmission. Subtype D viruses were found in one male homosexual patient and one heterosexual patient and a husband and wife couple were infected with subtype A viruses. A significant association between subtype and mode of transmission (p=<0.0001) was identified, confirming two independent epidemics. To determine the subtype distribution of HIV within urban heterosexual populations throughout South Africa, samples were collected from women attending antenatal clinics in Johannesburg (n=34), Pretoria (n=S) and Durban (n=20). Samples from Bloemfontein (n=24) were taken from individuals attending an HIV/AIDS clinic. All eighty-three samples were subtyped by HMA in the env region as before. The predominant subtype circulating within the urban heterosexual population throughout South Africa was identified as subtype C (92.8%) although subtype B was also detected (7.2%). It may thus be beneficial if a HIV vaccine for South Africa is based on a subtype C model. In addition, a rapid method for identification of HIV-1 gag subtypes was developed based on restriction fragment length polymorphism (RFLP) analysis of 400bp (p17) or 650bp (p17 and 5' p24) long PCR fragments. This strategy was appl i ed to eighty-six samples (Cape Town n=47, Johannesburg n=20, Bloemfontein n=17 and Durban n=2) previously subtyped by either sequence analysis of the gag p17 region (n=31), heteroduplex mobility assay (HMA) based on the env gene (n=76), or both (n=21). RFLP analysis identified two subtype A, twenty-five subtype B, fifty-eight subtype C and one subtype D isolates. There were no discrepancies between RFLP and sequence gag subtypes, demonstrating the reliability of this method and no discordance between gag RFLP subtypes and env HMA subtypes, indicating no recombinant viruses in the genomic regions analysed.
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5 |
The packaging and annealing of primer tRNALys3 in HIV-1 /Saadatmand, Jenan. January 2008 (has links)
No description available.
|
6 |
Dimerization of human immunodeficiency virus type 1 genome : dimer maturation process and role of the 5' untranslated region in dimerizationSong, Rujun. January 2008 (has links)
Human Immunodeficiency Virus type I genome consists of two identical RNA molecules that are non-covalently linked to form a dimer. HIV-1 immature and mature genomic RNA (gRNA) dimers were found in protease defective (PR -) and wild type virions, respectively, and the 5'untranslated region (5' UTR) was shown to play key roles during the genome dimerization process; but the dimerization mechanism still remains to be clarified My research project is to characterize the dimerization process and the role of 5' UTR in genome dimerization in virions produced by tissue culture cells. I'll firstly show the dimer maturation processes of HIV-1 gRNA isolated from newly released to grown-up (≥10h old) wild type, PR-, and SL1 defective (DeltaIDS) virions respectively. The results showed that HIV-1 gRNA dimer maturation process was protease-dependent and involved multiple steps: from low to high dimerization level and dimer thermostability, and from low dimer mobility to intermediate and high mobility. PR- virions did not freeze gRNA conformation in the primordial nascent state and gRNA changed from monomeric in newly released virions to half dimeric in grown-up virions, which showed that genome was packaged in the form of monomeric RNA or fragile dimers, more thermolabile than immature dimers in grown-up PR- virions. DeltaDIS inhibited gRNA dimerization by about 50% in newly released virions, though grown-up DeltaDIS gRNA was fully dimeric, which indicated that the DIS played the initiation role in gRNA dimerization in HIV-1 virions. The gRNA dimerization rate in PR- or DeltaDIS virions was much slower than that in wild type virions. These results show for the first time the whole process of dimer maturation after virion release, the gRNA conformation rearrangement in PR- virions, and the initiation role of the DIS in HIV-1 virions. Next, I'll provide a rather systematic search for the contribution of different regions in 5' UTR to HIV-1 gRNA dimerization by studying selected mutations singly or together with defective SL1. The results showed that the 5'trans-activation response element (5'TAR) was directly involved in gRNA dimerization, and a long distance base-pairing interaction between a sequence in U5 region (nts105-1l5) and another around the initiation codon of the gag gene (nts334-344) was structurally contributive to gRNA dimerization. Deletions of sequences around the 3'end of Primer Binding Site (PBS) stem-loop moderately decreased gRNA dimerization level. Other sequences in 5' UTR except DIS/SL1, which was previously known to play important roles, didn't show any systematic role. Here the results suggested that the absence of inhibition on gRNA dimerization level with defective DIS might be the compensation of the direct role of 5'TAR; and wild type-like dimerization level of DeltaTAR must be the direct contribution of the DIS.
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7 |
The formulation and refinement of a polymerase chain reaction (PCR) assay for early diagnosis of paediatric HIV infection and genetic analysis of variants involved in vertical transmission of HIV-1Nolte, Jeanine Lucasta 19 April 2017 (has links)
Paediatric human immunodeficiency virus (HIV) infection has become a major socio-economic health problem in recent years as the number of HIV-1 infected children steadily increases. The majority of these infants are infected through mother-to-child transmission, with the frequency of vertical transmission varying between 12,9% and 65%. In order to implement appropriate management and possible treatment of these infected neonates, it is essential to have reliable laboratory tests for the early diagnosis of an HIV infection. At the time that this study was initiated, the diagnosis of HIV-1 infection in the Groote Schuur Hospital Virology Laboratory depended almost exclusively on serological assays. Such assays are of limited value for infants under 18 months of age, as maternal lgG antibody to HIV-1 is transferred via the placenta and may persist in the baby for up to 18 months. Available lgG antibody tests do not distinguish reliably between passively acquired maternal antibody and that produced by the infant itself. A valuable method of establishing the presence of true infection is provided by the polymerase chain reaction (PCR) technique which allows the identification, and subsequent exponential amplification of low levels of specific viral nucleic acid using specific oligonucleotide primers. A major aim of this study was to develop and instigate a (PCR) assay for the early diagnosis of HIV infection in infected infants. This was successfully achieved by the adaptation and optimization of an existing standard PCR protocol to suit the specific needs of a routine diagnostic service. Preliminary requirements involved the selection of primers and probes and establishing optimal parameters for: ionic strength, Taq DNA polymerase concentration, primer concentration, deoxynucleotide triphosphate concentration, and hybridization conditions for most efficient functioning of the test. The devised method entailed the extraction of proviral DNA from peripheral blood mononuclear cells, amplification of HIV-1 specific sequences by PCR, and identification by Southern blot hybridization with digoxigenin (DIG)-labelled probes. Thereafter the efficacy of the assay was tested on 45 infants (under 15 months of age) all born to seropositive mothers and therefore at risk for HIV infection. Forty-two of these infants had antibodies to HIV-1 and the remaining 3 were seronegative. The latter 3 also tested negative for HIV proviral DNA when PCR was performed, using at least 2 different HIV-1 primer pairs and their respective DIG-labelled probes. However, 27 (64%) of the 42 seropositive infants were also HIV-PCR positive and the remaining 15 (36%) seropositive infants were negative for HIV proviral DNA. Positive PCR tests correlated well with clinical data indicative of active HIV-1 infection for the majority of infants in the neonatal period, although it could not provide proof of infection in newborn babies (less than 1 week of age). The development of an in-house PCR protocol specific for HIV-1 has not only provided a valuable diagnostic assay for neonatal infection, but has also given insight into the parameters required for high sensitivity and the stringent precautionary measures that need to be applied to avoid contamination problems. The second part of this study was devoted to DNA sequence analysis of cloned HIV isolates from an infected mother and her 3-month-old infant. Nucleotide sequence variation between isolates of HIV-1 has been well documented. Examination of the third variable region (particularly the V3- loop) in the env gene of HIV-1 of our mother-infant pair confirmed this variation and provided the first genetic epidemiological data of this nature in the local community. Proviral DNA from both mother and baby was amplified using V3-specific degenerate primers and cloned. Clones containing the insert DNA were 2 identified by colony-blot hybridization. Their nucleotide and amino acid sequences were analyzed by using various computer programs. The degree of similarity between variants from the mother and infant in this study differed to a large extent from previous studies. The virus population harboured by the mother displayed highly homogeneous V3 sequences (1,04% variation) compared to the isolates from her 3-month-old infant, which showed a higher degree (1,8%) of heterogeneity. Phylogenetic analysis of the different isolates from mother and infant demonstrated that an HIV-1 subtype C virus was the infectious agent. This classification was confirmed by the characteristic amino-acid sequence of the tetrapeptide motif of the V3 loop present in the isolates from both mother and infant as well as the absence of a potential N-linked glycosylation site proximal to the first cysteine of the V3 loop, which is characteristic of subtype C viruses. Based on the amino acids present at positions 306 and 320 of the V3 loop, it could also be concluded that isolates from both the mother and her baby were consistent with the non-syncytium inducing (NSI) phenotype of HIV-1, thus indicating that, contrary to popular belief, NSI variants can be responsible for initiating infection. Data obtained from these genetic investigations of variants involved in vertical transmission of HIV-1 can form a useful basis for future comparative studies.
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8 |
Dimerization of human immunodeficiency virus type 1 genome : dimer maturation process and role of the 5' untranslated region in dimerizationSong, Rujun. January 2008 (has links)
No description available.
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