Post on 30-Dec-2019
Recent evolution in invasive
Salmonellosis
Professor Gordon Dougan
Wellcome Trust Sanger Institute and
Cambridge University
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How does evolution deal with dogma
Statements that have launched a thousand grant applications
and thesis introductions:-
• ‘Salmonella typhimurium is a cause of gastroenteritis in
humans whereas Salmonella typhi is responsible for the
systemic disease typhoid……….’
Nature Immunology 3, 1026 - 1032 (2002) Chronic bacterial infections: living
with unwanted guests. Douglas Young, Tracy Hussell & Gordon Dougan
Comparison of pathogenesis of infection associated with
Salmonella typhimurium versus typhi
Human
Restricted
Typhimurium Typhi
Some pathogens are genetically monophyletic and cannot be differentiated by
MLST
Genome diversity in different microbes
0.0 0.1 0.2 0.3-0.4
-0.2
0.0
0.2
0.4
0.6
0.8
C jejuni
E. coliN. meningitidis
S. aureusS. pneumoniae
S. enterica
H. pylori
Y. enterocolitica
mean H
ratio
mean Ds
Y. pestis,
S. typhi
B. anthracis
M. tuberculosis
C. trachomatis
V. cholerae 01
Shigella sonnei
B. pertussis
Mark Achtman
Comparison of the Salmonella Typhi genomes of Ty2
(1912) and CT18 (1992) illustrates a conserved genome
Ty2
PAI
P4 phage
Although variation in Typhi is limited it can be defined and the
consequences assessed – a paradigm for other human
restricted pathogens?
4,700 Genes
MLST
Diversity
What is the evidence for vertical and horizontal
accumulation of mutation and diversity in S. Typhi?
strain 1 strain 2 strain 3 strain 4
Progenitor
Time
~30,000 yrs
IncH1
plasmids
Ab-R
Variation discovery in Typhi using sequencing of
200 genes and over 100 strains
14
11
2
1
2
1
3
1
1
1
1
2
11
17
9
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6
31
2
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2 31
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1
Found only 88 SNPs! In ~ 2% of the genome
Population structure – SNP analysis of Salmonella Typhi
Roumagnac et al (2006) Science 314 1301
Any new isolate can
be unequivocally
assigned to a
position in the tree
The position in the
tree is irrefutable
Ancestral root
SNP analysis of Salmonella Typhi linked to gyrase SNPs
NalR - gyrA mutations
Expanding SE Asian
Naladixic acid resistant
clones are H58
RootNalidixic acid
resistant
point mutations SNPs
Selection of strains for resequencing S.
Typhi
454 resequencing
Published sequence
Solexa resequencing
AV
AZ
A0
Roumagnac et al., 2006. Science.
Because we have a phylogenetic
Tree we can truly sample diversity
H58
SE Asia
Expansion
New tech re-sequencing of Salmonella Typhi
Kathryn Holt
2736 SNPs identified; 1815 SNPs used
S. Typhi phylogenetic tree after sequence analysis
SNP scale
Variation landscape in typhoid
Typhi is genetically isolated
with no evidence for antigenic
variation
The differential
accumulation of ~92
pseudogenes in different
arms of the tree is giving
rise to different
pathotypes?
Plasmids entering the tree
Accumulation of plasmids and mutation on the tree
We have different typhoid
disease severity in our part
of the world, is this due to
the host or the pathogen
genetics…???
180
~200
Typhi genotyping
resistance
plasmid
Typhi chromosome
SNPs
deletions
Can SNPs framework be used for association style
genetics as in mammals?
Haplotypes circulating in the Jatinegara district of Jakarta
over a two year period
1500 SNPs assayed at once for each sample (ugs) on Illumina
GoldenGate genotyping platform
Distribution of invasive salmonellosis disease
Non-typhoidal
Salmonellosis
The Gambia 1980s and 2005
Rwanda 1980s
Kenya 1980s
DRC 1990s Malawi 1996-2006
Nigeria 1970s
Ghana 1990s
Kenya 2000s
CAR 2002
Reports from tropical Africa of NTS as a major
cause of pediatric bacteraemia
Uganda 2006
Mozambique
Ethiopia
Egypt
NTS are the commonest cause of bacteraemia in
Malawi:
Blood isolates 0-14 years, 1996-2002
1,873
580189
356
152
300
873
557
NTS
S.pneumoniae
H.influenzae
S.aureus
N.meningitidis
Gp B strep
S.typhi
Other strep
Other GNR
Other
Typhimurium
Enteritidis
AIDS 2002, 16:1633–1641
• 77/78 HIV-infected
• 47% inpatient mortality
• 77% dead at 1 year
• 43% recurrence rate
• Recrudescence not reinfection
Death
Recurrence
NTS in HIV-positive adults
• 97% fever, 67% cough, 48% diarrhoea, 72% tachypnoea
• just ~18% of cases are associated with HIV infection
• 31% malaria slide positive
• 27% Anaemia
• 15% <60% weight-for-age, 51% 60-80% weight-for-age
• No diagnosis without
blood culture facility
• Overall mortality 23%
A diagnostic conundrum:
NTS in HIV-negative children
010
20
30
40
50
Ca
ses o
f S
alm
onella
Ba
ctera
em
ia
0 12 24 36 48 60 72 84 96 108 120
Age (months)
16
-1.2
16
9
0
40
-3-2
-10
12
log10
ch
ange
in S
alm
one
lla (cfu
/ml)
0 12 24 36 48 60 72 84 96 120Age of serum donor (months)
a16
1.5
4
21
33
7
.11
10
100
100
0anti-S
alm
onella
IgG
titer
0 12 24 36 48 60 72 84 96 120Age of serum donor (months)
b
Cal MacLennan
In vitro models of Salmonella Bacteraemia
Whole blood assay
8 salmonella
Strains
Healthy adult
donor blood
Serum
Heat-inactivated
serum
+ C’
Whole blood
Serum
Washed Blood cells
resuspended
in RMPI
C9 deficient serum
+ purified C9
C9 deficient serum
Complement-mediated killing of salmonella
is dependent on classical pathway activity
CLASSICAL
(IgG, IgM)
MANNOSE
BINDING LECTIN
ALTERNATIVE
C3b
Membrane Attack
Complex
C5b-9
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20
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60
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100
120
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200
Jan-
June
'96
July-
Dec
'96
Jan-
June
'97
June
-Dec
'97
Jan-
June
'98
July-
Dec
'98
Jan-
June
'99
July-
Dec
'99
Jan-
June
'00
July-
Dec
'00
Jan-
June
'01
July
- Dec
'01
Jan-
June
'02
July-
Dec
'02
Nu
mb
er
Iso
late
d
0
10
20
30
40
50
60
70
80
90
100
% R
esis
tan
t
Total S typhimurium Total S enteritidis
% amp resistant SEN % chl resistant SEN
% gent resistant SEN % cotrim resistant SEN
The emergence of drug resistant invasive salmonellosis in Malawi
as monitored by Wellcome Trust Laboratories, Blantyre
Many NTS strains circulating in Africa (Kenya/Malawi) have a
novel MLST type
ST313 NTS
Root
Classic gastroenteritis (DT104,
LT2, SL1344)
Plasmid, Pulse Field Gel Electrophoresis and Multi Locus
Sequence Typing Profiles
MDR, Cm-S MDR, Cm-R
Chloramphenicol treatment Fluoroquinolone treatment
Complete sequence of a Malawian MDR NTS S.
Typhimurium ST313
Rob Kingsley and Nick Thomson
S. Typhimurium D23580 has a unique phage repertoire
compared to other sequenced strains
DT104
D23580
1D/G 1D/G 1D/G1L
Most S. Typhimurium NTS isolates from Malawi between 2003-
2004 have identical pulse field and plasmid pattern to D23580V517
4.6
24.042.098.0
chr
1.3
1.7
70
Indistinguishable strains of S. typhimurium NTS
in HIV-positive adults and HIV-negative children
Kingsley et al, Figure 3
Antibiotic resistance
genes located on an
integron situated in the
virulence plasmid of S.
Typhimurium D23580
The invasion associated plasmid harbours a sophisticated mobile
cassette encoding antibiotic and disinfect resistance
ββββ-lactamase
aminoglycoside
sulphonamide
trimethoprim
streptomycin
chloramphenicol
quaternary ammonium
2004
Plasmid, Pulse Field Gel Electrophoresis and Multi Locus
Sequence Typing Profiles
MDR, Cm-S MDR, Cm-R
Chloramphenicol treatment Fluoroquinolone treatment
Mer R
Mercuryaminoglycoside quartenary ammonium
B-lactam
sulphonamide
orf121 qaCEblaOintI1 MerPCDSaadA1 sul3 tniA MerCMerAMer DMer EtniBistB istAsul1CDStnA
32
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Mer T
1997
Salmonella typhimurium isolated before 2004 have a different
element encoding MDR
D23580
SL1344, DT2, E.
coli K12
Lancet Infectious Disease2007, 7:686-93
The pressure for the use of prophylactic antibiotics in
HIV positive children
AcknowledgementsJulian Parkhill
Nick Thomson
Many in the PSU
Stephen Baker
Kathryn Holt
Tim Perkins
Robert Kingsley
Derek Pickard
Others in Team 15
Sam Kariuki
Chisomo Msefula
Malcolm Molyneux
Melita Gordon
Robert Heyderman
Cal MacLennan
Jeremy Farrar
Christiane Dolecek
Duncan Maskell
Bruce Stocker
The Non-typhoidal Salmonellosis problem
• Multi-drug resistance (chloramphenicol, ampicillin,
cotrimoxazole) >90% in Malawi
• Diagnostic difficulty. Non-specific presentation
• 23% case fatality rate with blood-culturing facility and
appropriate antibiotic therapy
• Rapid progression of clinical course
• Currently no vaccine against non-typhoidal salmonella
Clinical Infectious Diseases 2008; 46:963–9