symbiotic heirarchies of the intestinal tract: implications for health and disease
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Symbiotic Heirarchies of the Intestinal Tract: Implications for Health and Disease. Woody Emlen MD. S ymbiotic H eirarchies of the I ntestinal T ract. Our Gut Microbiome. Woody Emlen MD. Why Now?. - PowerPoint PPT PresentationTRANSCRIPT
Symbiotic Heirarchies of the Intestinal Tract:
Implications for Health and Disease
Woody Emlen MD
Our Gut Microbiome
Woody Emlen MD
S ymbiotic H eirarchies of the
I ntestinal T ract
Why Now?
• Hot topic in medical and lay literature (NY Times/Economist/Science/Nature/TED/Mother Jones)
• Explosion of information over past 10 years• Significant medical implications beginning to
emerge (obesity, diabetes, allergy etc).
What’s the Big Deal: What’s New?
• Culture – Identify organisms by morphology/chemical tests
• BUT - Only 20-30% of observable stool organisms grow in culture
• Past 10-15 years – Identify by DNA analysis (metagenomics)– 16s rRNA sequencing– Full DNA sequencing
• Revealed almost unbelievable diversity and numbers!!
Bacterial Culture in Petri Dish
We are not Alone!!
Some Most of my closest Friends are germs!
• 100,000,000,000,000 bacteria on/in our body– 10 pounds of bacteria!!
• Several “biota”in multiple sites:– Skin– Mucosa (oral, vaginal)– GI tract (Large intestine>> small intestine)
• Each biota is a complex ecosystem in itself
Microbiota Sites
Are we really Human?
• 350,000,000 People in US• 7,000,000,000 People on earth• 10,000,000,000,000 Cells in our body• 100,000,000,000,000 Bacteria in and on your
body - RIGHT NOW!
Are we merely a carrier for a huge bacterial colony?
Terminology
• Microbiota – the organisms (bacteria, fungi, viruses, etc) living in/on us.
• Microbiome: - the DNA contained in our microbiota– 23,000 genes in the Human genome– >1,000,00 genes in the microbiota microbiome
The Gut Microbiota
• 500-1000 different species– >5000 taxa (identifiably different on DNA analysis)– Most bacteria anaerobic
• Densest bacterial colony on earth (> 1012/cm3)• Extremely complex ecosystem (rain forest)
YUCK!!
Questions
• Where do they come from?• Why are they here? – what’s in it for us / for
them?• How do we protect ourselves from them?• Do they have any effects on our lives – for
better or worse?• Can we control / manipulate them?
Where do they come from?• Sterile gut at birth• Initial colonization from mother during childbirth
– Significant differences in MB from babies delivered by C-section
– Differences based on breast vs formula feeding– Differences based on diet
• MB grows in complexity over first 3 years – gradually stabilizes to “adult” MB– Development can be significantly altered / limited by
early antibiotic use
Effect of Diet on MBGnobiotic mice fed varying diets
J J Faith et al. Science 2011;333:101-104
Published by AAAS
Microbiota Stability
• “Adult” MB relatively stable over time– Stable by function rather than by specific organisms
(stability is with microbiome)– Shaped by diet, host genetics, family members, family
pets, family behaviors• May be disrupted by antibiotics / stress / disease /
drug / infection / etc– Return to baseline MB over 2-4 weeks in most
individuals but may develop new stable MB– Decreased complexity of MB with age
Why are they here?If you can’t fight ‘em, join ‘em!!
• Advantages to both: co-evolution has led to true symbiosis– Microbiota:
• Nice warm, anaerobic home• Constant food supply (50 tons!)• Surrounded by friends – the good life!
– Host:• Supplement nutrition• Remove toxins• Protect from pathogenic bugs• Enhance / augment immune system
The Gut Microbiota: Function
• Express 50-100 times more genes than the host (us)!!• Digestive enzymes• Products of fermentation
• signaling molecules • vitamins
– Metabolism/Nutrition• Extract nutrients and energy from our diet• Breakdown of xenobiotics (including drugs)• Signals to liver/fat cells to modulate metabolism
– Resistance to pathogenic bacteria– Shape immune function & repertoire
Nutrition• Enhance absorption of calories/nutrients
– Gnobiotic mice require 30% more calorie intake – Break down non-digestible polysaccharides– Generation of short-chain fatty acids (<6 C; promote colon health,
anti-inflammatory in colon)• Convert / generate some essential nutrients to
usable/absorbable forms– Vitamin K and B, folic acid derivatives– Generate small molecule “messengers” (36% of small molecules in
circulation are MB origin)• Alter Drug Metabolism
– Drug breakdown
Gut Microbiota: “Enterotypes”
• Several general “types” of ecosystems – Characterization very complex and still inexact
controversial• Best defined by functional activity rather than
species types or heterogeneity• More species diversity is usually a more stable
and “healthy” microbiota.• Useful in seeking correlations with health
status/disease
MB, Obesity and Diabetes • MB of lean and obese mice differ • “Obese” MB is more efficient at extracting energy from diet• Obesity and diabetes are transmissible to gnobiotic mice
with appropriate MB colonization
non-obese MB
Obese MB
• Differences in MB of obese and non-obese humans similar to differences in mice
MB, Obesity and Diabetes in Humans
• Compared MB of lean and obese twins (monozygotic and dizygotic) and their mothers.– MB similarity between pairs of monozygotic and pairs of dizygotic
twin equal; both very similar to their mothers.• MB from lean twins similar to each other but different from
MB of obese twins.CONCLUSIONS
• Environment is major determinant of MB rather than genetics
• May be able to define/describe “obese” MB• Experiments in humans underway in Netherlands (at 6 weeks
– improved insulin sensitivity but no weight loss)
Can MB Generate Harmful Molecules?
• Red meat/high fat diet accepted as a risk factor for CVD– Rich in lipids / also rich in choline & lecithin
• Metabolite of choline (TMAO) induces heart disease in mice
• Is TMAO a risk factor for CVD in humans? – YES– Epidemiology study of 4000 subjects – high TMAO
gave 5 fold increased risk of heart disease (after correction for other risk factors)
Where does TMAO come from?
• Choline challenge given and TMAO levels measured (visit 1)• Treated with 1 week of antibiotics to remove MB –challenge repeated
(visit 2)• Third challenge given 2 weeks after antibiotics stopped after MB
recovery
Normal After antibiotics Recovered from Abx
Dietary red meat / Eggs / cheese
Conclusion: Foods thought to cause / contribute to heart disease exert their effects through the action of the gut Microbiota.
The Gut: Immune System Interactions
• Priority ONE – protect me from the bugs!!– 1 cell thick layer separating us from 1014 bugs– Need to protect surface area as large as a tennis court– Leakage of bacteria into blood – sepsis & death
• When Pathogens invade:– Produce toxins that kill competition– Induce body to produce endogenous toxins to which they are
resistant (decrease competition)– Induce inflammation– Similarity to antibiotic effects – markedly damage the normal
MB
Pathogen Resistance by MB
• Competition for nutrients (stable ecosystem is a complex ecosystem)
• Production of anti-microbial peptides (direct and induced)
• Mucous layer to keep bacteria away from gut wall• Drive Immune System to produce antibodies (IgA)
and immune cells• Disrupted by antibiotics
Clostridium Difficile
• Antibiotic treatment leads to overgrowth of C. Difficile – chronic diarrhea
• Treatment with antibiotics to try to kill the C Difficile – requires repeated treatment
• Fecal Transplants to restore normal MB in patients unresponsive to antibiotics– Given by enema / colonoscopy / NG tube– 91% success rate at 6 weeks
Our Gut Ecosystem
restores
Restores gut ecosystem
Effect of Gut MB on host Immune System
• Drive development of gut immune system– Gnobiotic mice
• Shape repertoire of immune responses– What organisms do we recognize / respond to?
• Maintains “balance” between different types of immune response (TH1 vs. TH2)
Allergy/AsthmaHygiene Hypothesis
• Increasing incidence of allergy/asthma in western / “1st world” countries
• “Civilization” of East Germany• Excessive “hygiene” pre-disposes our children to
develop allergies/asthma• Microbiota:
– Childhood antibiotic use associated with increased allergy/asthma– Mouse models – early antibiotics: more severe asthma
Types of Immune Response
Type 1 Kill internal pathogens Internal inflammation Cell/bug death
Type 2 Remove external irritants Sneezing
Coughing Itching
Excess InflammationAutoimmunity
AllergyAsthma
Microbiota
Overview: MB Effects on Disease
Host Genetics
Gut Microbiome“Type x”
Disease
Early Environmental Effects – maternal /other
Genetic Predisposition
Epi-genetic effects of MB
productsGenerate / deplete
Metabolites
EnvironmentalExposures
Diet
Gut Microbiota: Treatment
• Can we control or modify our microbiota to treat / prevent disease or alter our disease risk?– Fecal transplants– Probiotics– Prebiotics
Probiotics• Strains of microorganisms which confer health
benefits on the host– A “probiotic” MB is one that supports
health– A “dysbiotic” MB is associated with disease
• Probiotics as supplements must:– Survive and metabolize in the gut– Confer beneficial effects– Non-pathogenic and non-toxic*
Probiotics – Current Status• Clinical Studies – few controlled
– Decreases antibiotic induced-diarrhea 50-60%– No benefit in travellers diarrhea– ? Effect in Inflammatory Bowel Disease– No effect in diabetes/obesity (to date)– Generally safe (few cases of sepsis)
• Shotgun approach:– What is the appropriate probiotic or prebiotic for
any given disease not yet defined– MB of individuals not defined – unclear what is
needed
Probiotics – Current Status• $16B industry• Strain / number of organisms per dose varies
from 5-100B• Storage conditions / QC vary• Survival of organisms in gut and change in
MB as yet undocumented• Tremendous therapeutic potential in future • Buyer beware at present
Prebiotics• Foods that promote growth and activity of beneficial
bacteria – Resistant to digestion (acid/enzymes/absorption)– Able to be fermented/metabolized by intestinal organisms– Promote growth/activity of beneficial intestinal organisms– Egs: Fiber/complex polysaccharides
• Still very little research on what foods/prebiotics promote what bacteria, and in turn what bacteria we want to promote
• Combined with probiotics - synbiotic
Our Gut Ecosystem
The Future• Human Microbiome Project (HMP) underway• Probiotic bandwagon is well underway
– Right now a better financial investment than a health investment
– Not yet a clear-cut good health investment – but it likely will be
• In 20 years:– We will all know our “fecotype” just like we know our
blood type– Personalized medicine will include and utilize knowledge
of both our genome and our microbiome.
The Future
• SHITTY treatment from our doctor may be just what we all want and need!!