insights from experimentally infecting humans with hookworm
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Insights from experimentally infecting humans with hookworm
Emeritus Professor Rick SpeareSchool of Public Health, Tropical Medicine and Rehabilitation Sciences, James Cook University
&Director, Tropical Health Solutions Townsville, Queensland, Australia
17 October 2012
Presentation to Medical Research Council (Gambia)Available at: http
//www.tropicalhealthsolutions.com/hookworm
Orientation - map
Townsville
Anton Breinl Centre for Public Health and Tropical
Medicine
Dr John Croese & Castle Hill
Hygiene Hypothesis: STH style
• Although soil transmitted helminths (STH) cause significant morbidity in developing countries, the lack of STH in developed countries is hypothesised to increase the incidence of allergic and autoimmune disease.
• STH will induce a Th2 response against the parasite and this will be down-regulated by regulatory T cells which will also non-specifically down-regulate the destructive immune response (Th1) of the host that is responsible for allergic and autoimmune diseases.
Relationship between prevalence of multiple sclerosis and STH
Fleming & Cook. Neurology 2006;67:2085
• Trichuris trichiura as a marker of STH & low levels of community sanitation
• Prevalence of MS & Tt in 35 countries
• Correlational study
Multiple Sclerosis vs Whipworm
• Prevalence of MS falls steeply once threshold of 10% Tt is reached
• This applied for marginalised populations sharing same country (Jews – Arabs in Israel)
Fleming & Cook. Neurology 2006;67:2085
10%Is the protective effect
due to Tt or gut exposure to
pathogens?
Some worms are protective; some aren’t: Care is needed!
• Meta-analysis of asthma and association with STH
• STH in general no significant effect
• Ascaris is associated with asthma
• Hookworm is protective
Leonardi-Bee et al Am J Resp Crit Care Med 2006;174:514
Effect of anthelmintics on allergic reactions
• Van den Biggelaar et al J Inf Dis 2004;189:892
Skin reactivity to dust mite antigen increased after STH controlled
• Flohr et al. J Aller Clin Immunol 2006;118:1305
How do parasites exert an effect?
• Brown & Jackson Para Immunol 2004;26:429
Immune response
Trichuris suis for IBD
• Whipworm eggs collected from worms in experimentally infected pigs
• Incubated, made aseptic• 2500 eggs orally every 3 weeks
• All open trials• Significant percent of
remissions for both Crohn’s Disease and Ulcerative Colitis
• No significant side effects
Summers et al. Am J Gastrolenterol 2003;98:2034
Summers et al. Gut 2005;54:87
80% of patients benefited
Necator americanus
Life cycle
• Skin penetration• Blood-lung
migration• Occurs within
48 hrs PI• Juvenile worms
arrive in sm int in 4 weeks PI
• Adults mature at 7-8 weeks PI
N. americanus in gut
• Attaches to mucosa of small intestine
• Sucks blood• Little known about
behaviour of NA in human gut since can not be directly observed
Infective larvae (L3i)
• 25°C• In dark• 7 days
Harada-Mori Technique
12 hr post-infection
1 day post-infection
2 days post-infection
Infection worked!
• We inoculated 9 immunosuppressed Crohn’s disease patients and 3 normal donors with 15 to 101 L3i
• All 9 Crohn’s patients and 2/3 donors developed a patent infection
Insight: Imunosuppressed and normal hosts can be infected with Necator with no
or minimal negative effects.
What did the hosts think?
• Human hosts loved their worms!
Insight: Finding subjects to be inoculated with hookworms is not difficult.
Some problems!
• Penetration site
• Small intestine
2 days post-infection
4 days post-infection
6 days post-infection
7 days post-infection
8 days post-infection
9 days post-infection
10 days post-infection
11 days post-infection
12 days post-infection
15 days post-infection
20 days post-infection
Severe local response on reinfection
Insight: Penetration of L3i is uneventful in most, worrying in some
Why the severe local reaction?
L3i are “dirty”
• L3i are heavily contaminated with faecal bacteria.
• Standard techniques of multiple washing do not reduce the contamination.
• Is the hookworm sheath left on skin or does it remain in epidermis?
• Washing in providone iodine for 15 min was added after harvesting.
• Could L3i be made sterile?
Better Quality L3i
• Melissa Logan – BMedLabSc honours thesis
Bacteria are associated with L3i
In vitro tests
In vivo tests: penetration• 15 L3i; 3 groups – 5 subjects per group
Patency of infection• 100% patency for both techniques
Antibiotic treated L3i were equivalent to standard L3i
Conclusion
• Treatment of L3i with bleach and antibiotics gives viable larvae of comparable potency.
• These L3i are sterile.• Bleach and antibiotic technique should be the
gold standard for L3i for experimental infection.
Recommended Protocol
• Harvest L3i and centrifuge• Place in 0.25% sodium hypochlorite for 10 mins• Wash twice using centrifugation in sterile distilled
water to remove any residual sodium hypochlorite• Place in a solution of benzylepenicillin (180 mg/L) and
ceftazadime (1.0 mg/L) for 60 mins• Centrifuge to remove excess solution• Wash L3i twice using centrifugation in sterile distilled
water to remove any residual antibiotic solution.
Are skin reactions less?
Safety when working with L3i
• For any item in the laboratory a Material Safety Data Sheet (MSDS) is needed.
• MSDS important when L3i of N. americanus are being used in laboratory.
• The MSDS for hookworm said kill spills of L3i with bleach (Health Canada 2001).
• Did this actually work?
What kills L3i rapidly?
• Bleach did not kill L3i• Ethanol 70-100% did• Dettol killed L3i
Insight: Current MSDS was inaccurate! A new one based on
evidence was needed.
New Hookworm MSDS• Speare et al. Australian Journal of Medical Science
2008;29:91-96.
• Online at http://www.tropicalhealthsolutions.com/MSDSNecatoramericanus
Abdominal pain
• Hosts developed central abdominal pain about 3 weeks post-inoculation
Healthy Volunteers:
• 1 of 3: developed vigorous local reaction• 3 of 3: Central, non-colicky abdominal pain
started about 3.5 weeks and persisted for about 5 weeks
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Abdominal pain - Post Infection with Necator americanus
0 = none; 1 = mild; 2 = moderate; 3 = severe
Day Post-Infection
Reinfection
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Abdominal pain - Post Re-Infection with 50 L3i Necator amer-icanus on day 502
0 = none; 1 = mild; 2 = moderate; 3 = severe
Day Post-Infection
What’s happening?
• Allergic reaction develops at the attachment site of the worm.
• Local eosinophilic response.• Each hookworm secretes chemicals to
suppress this reaction.• If this is unsuccessful, the worm lets go and is
carried down the gut.• It attaches to a new site.
Red spots / white spots
Look at the hookworms with capsule endoscopy
• In the past worms in the small intestine could not be studied since they were not accessible to gastroscope or colonoscope
• Now we have capsule endoscopy (CE)• CE was used in this study to count worms,
determine where they were attached, and the host reaction to feeding
The capsule: camera in a pill!
The camera
• Takes 2 images per second
• Transmits these to sensors on abdomen
• Stored on computer• Images read like a
video
Data capture
Data capture
Worms in situ
Male and female
Red spots / white spots
Distribution along small intestine
Yellow bar = NA; Red = red spot; White = white spot
0.00
0.12
0.23
0.35
0.46
0.58
0.69
0.81
0.92
1.04
1.15
HW
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Transit
RD2: CE #5
Value of capsule endoscopy
• Numbers of hookworm can be counted.• Their relative position along small intestine
can be plotted.• Host response to feeding can be quantified.
Insight: We now have a tool to study hookworms in the small intestine.
What happens when a person is reinfected?
• Two controls reinfected with 50 L3i.• One had originally received 31 L3i and had 6
hookworms in small intestine.• Another had originally received 101 L3i and
had 16 hookworms in small intestine.• Reinfection at 400 and 500 days post-
inoculation.
Rejection started when Necator arrived in small intestine
Croese & Speare. Trends in Parasitology 2006;22(12):547-550.
• Immature worms rejected in small intestine• Each individual host seems to have a “pre-set”
number of worms that will be allowedCroese et al. Gastroenterology 2006;131(2):402-409.
Insight: Repeat infections will be safe unless the host has a high level of
permissiveness.
Can hookworms be used to treat Crohn’s Disease?
• Crohn’s Disease (CD) is an autoimmune disease of the small intestine.
• Severe inflammation, usually segmental.• Typically starts in young adults.• Requires immunosuppressive agents to
control.
Methods
• Single unblinded trial• 9 Crohn’s disease (CD) patients
– 25 L3i of NA for 3; 50 L3i for 5, 100 L3i for 1• 3 healthy volunteers
– 30, 50, 100 L3i • Monitored by Crohn’s Disease Activity Index
(CDAI), Inflammatory Disease Bowel Questionnaire, FBC, clinical biochemistry
• CD patients managed individually by gastroenterologist
Inflammatory Bowel Disease Questionnaire scores
• The IBDQ scores were increased after 20 weeks compared to the scores at the outset (week-20 mean 179, CI 20, vs week-1 mean 151, CI 14: P=0.0544).
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Time from inoculation
IBD
QRemission:IDBQ>170
Crohn’s Disease Activity Index
• The initial CDAI score of each Crohn’s subject vs the scores at week-20 and at week-45 (mean 165, CI 145 vs 64, CI 25, P=0.132; mean 165 vs 75, CI 29; P=0.246).
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• The 4-week CDAI mean for the all subjects () at the end of the study was lower compared to lead-in score (week 17-20 mean 87, CI 15 vs week 1-4 mean 141, CI 31; P=0.001);
• This improvement reflected 4 of the 5 subjects with active disease at the outset () achieving a remission (CDAI>150; mean 112, CI 21 vs 211, CI 33; P=0.0001).
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Total CDAI>150 CDAI<150
Conclusions
• Crohn’s disease subjects, including those on immunosuppressive drugs, acquired a patent N. americanus infection and appeared to benefit as a result.
• Patients with more severe disease benefited the most.
• Reinoculation did not appear to impact negatively on CD subjects.
• These results justify progression to more sophisticated clinical trials.
Hookworm to treat Crohn’s disease?
Insight: Crohn’s disease patients improved, particularly those with more severe
disease, but additional research is needed to clarify role of hookworms in therapy.
How do hookworms modify host immune responses?
• Brown & Jackson Para Immunol 2004;26:429
Immune response
• Since CD patients were immunosuppressed, we were unable to study effect of N. americanus on immune response.
• Needed people with an autoimmune problem, but not on immunosuppressives.
• Inoculated people with coeliac disease (gluten autoimmunity).
• Test group (received Necator); control group (sham)
Daveson et al. PLoS One 2011;6(3):e17366
Results• All 10 people in test group became infected• Abdominal pain increased wk 3; baseline wk 16• Hookworm group less lethargic
Results (cont)
• Gluten challenge (5 days) – hookworm did not protect.
• Marsh score deteriorated in both groups.• Trend to be less in hookworm group, but not
significant.• Specific markers of systemic immune response
to gluten (EPLISpot) increased significantly after challenge only in control group.
Necator for Treating Coeliac Disease?
Insight: Necator did not protect coeliac disease patients against severe gluten
challenge.However, there was a subjective
impression that Necator “dulled” response to small amounts of gluten.
• Hookworm induced a specific Th2 response
Gaze et al PLoS Pathogens 2012;8(2):e1002520
Systemic immune response
Response in duodenum
• IL-5 increased adjacent to hookworm attachment site
• Plus other changes (read paper – too complex for me!)
Gaze et al PLoS Pathogens 2012;8(2):e1002520
Conclusions
• HW infection induces a systemic, Necator antigen-specific, Th2 response, and a mucosal Th2 response.
• Evidence also of a systemic, but not mucosal HW-specific Th1 response.
• HW dramatically suppressed pro-inflammatory cytokine production (IL-23) in duodenum and upregulated anti-inflammatory and wound healing cytokines (eg, IL-22).
Insights: This is a valuable experimental model for
studying the human immunological response in the gut to hookworm.
Hookworms secrete chemicals with powerful anti-inflammatory effects.
Pharmaceuticals versus Worms?
• Hookworms secrete potent chemicals that have promise for treating human inflammatory diseases.
• Are these best isolated and sold as pills? or• Infect people with hookworms and let the worms
do the immune regulation?• More profit in the former approach, and it may be
more effective and controllable.• Latter approach is simple and cheaper, but
probably less effective.• More evidence needed; so jury is out!
NA
juice
Publications• Croese J, O’Neil J, Masson J, Cooke S, Melrose W, Pritchard D, Speare R. A proof of concept study
establishing Necator americanus in Crohn’s patients and reservoir donors. Gut 2006;55:136-137.• Croese J, Speare R, Wood M, Melrose W. Allergy controls the population density of Necator americanus in
the small intestine. Gastroenterology 2006;131(2):402-409.• Croese J, Speare R. Intestinal allergy expels hookworms: seeing is believing. Trends in Parasitology
2006;22(12):547-550.• Daveson AJ, Jones DM, Gaze S, McSorley H, Clouston A, Pascoe A, Cooke S, Speare R, Macdonald GA,
Anderson R, McCarthy JS, Loukas A, Croese J. Effect of hookworm infection on wheat challenge in celiac disease - a randomised double-blinded placebo controlled trial. PLoS One 2011;6(3):e17366.
• Gaze S, McSorley HJ, Daveson J, Jones D, Bethony JM, Oliviera LM, Speare R, Mccarthy JS, Engwerda CR, Croese J, Loukas A. Characterising the mucosal and systemic immune responses to experimental human hookworm infection. PLoS pathogens 2012;8(2):e1002520.
• Logan M. Methods in improving the quality of Nector americanus larvae for use in therapeutic applications. BMedLabSc honours thesis, James Cook University. 2009.
• McSorley HJ, Gaze S, Daveson J, Jones D, Anderson RP, Clouston A, Ruyssers NE, Speare R, McCarthy JS, Engwerda CR, Croese J, Loukas A. Suppression of inflammatory immune responses in celiac disease by experimental hookworm infection. PLoS One 2011;6(9):e24092.
• Speare R, Melrose W, Cooke S, Croese J. Techniques to kill infective larvae of human hookworm, Necator americanus, in the laboratory and a new Material Safety Data Sheet. Australian Journal of Medical Science 2008;29:91-96.
Source of Images(if not original)
• N. americanus en face view: http://www.columbia.edu/itc/hs/medical/pathophys/parasitology/2004/lecture02Slides_files/slide0005.html
• Hookworm life cycle: CDC Diagnostic Parasitology web site• Trichuris and hookworm eggs: CDC Diagnostic Parasitology web site
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