BackNormal Microbiota: Classification, Distribution, and Host Relationships
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Normal Microbiota
Definition and Overview
Normal microbiota refers to the collection of microorganisms that colonize various surfaces of the human body, commonly known as the normal flora. These microbes typically do not cause disease under normal circumstances in healthy individuals.
Microorganisms include bacteria, fungi, and sometimes viruses and protozoa.
Colonization occurs on both external and internal body surfaces.
Main Groups of Microbiota
Resident Microbiota: Microbes that are consistently present at specific body sites. They are introduced at birth and persist throughout life, living with permanence and stability.
Transient Microbiota: Microbes that are temporarily present on body surfaces. They do not permanently colonize and are often removed by host defenses or competition.
Key Point: Attachment to the host surface is necessary for colonization. Without attachment, microbes cannot establish residence or cause infectious disease.
Distribution of Microbiota on Body Surfaces
External Surfaces
Conjunctiva (eye surface)
Skin
Internal Surfaces
Mucous membranes lining the respiratory tract, digestive tract, and urogenital tract
Other moist surfaces such as the mouth, throat, and nose
Representative Microbial Species by Region
Skin: Staphylococcus aureus, Staphylococcus epidermidis
Nose/Throat: Streptococcus pneumoniae, Staphylococcus aureus
Oral Cavity: Various species belonging to genus Streptococcus, genus Lactobacillus, and other bacterial and fungal species
Intestinal Tract: Escherichia coli, various bacterial species belonging to genus Lactobacillus
Vagina: Various bacteria belonging to genus Lactobacillus, genus Clostridium, and various fungal species
Additional info: Bacteria belonging to genus Lactobacillus are found from the upper respiratory tract down to the vagina. Various fungal species are present on skin, mouth, and vagina.
Functions and Benefits of Resident Microbiota
Microbial Antagonism
Most resident microbiota benefit the host by preventing colonization by pathogens, a phenomenon known as microbial antagonism.
Compete for nutrients and attachment sites
Produce substances that inhibit or kill pathogens
Probiotics
Probiotics are beneficial bacteria that can restore the resident microbiota population, especially on the surface of the digestive tract during or after antibiotic therapy.
Lactobacillus acidophilus is a well-known probiotic and is also called lactic acid bacteria.
Probiotics help maintain a healthy balance of intestinal microbiota.
Transient Microbiota
Characteristics
Temporarily present on body surfaces
Removed by host defenses or competition
Most are harmless, but some can be pathogenic (e.g., Staphylococcus aureus)
Opportunistic Pathogens and Disease
Opportunistic Infections
Resident microbiota can cause disease under certain conditions, becoming opportunistic pathogens.
Immunocompromised hosts (e.g., AIDS patients) are at higher risk for opportunistic infections, such as pneumonia caused by species of genus Pneumocystis.
Resident microbiota may gain access to deeper tissues via broken skin or mucous membranes.
Symbiotic Relationships
Types of Relationships
The relationship between resident microbiota and their host can be classified as:
Commensalism: One organism benefits, the other is unaffected. Example: Microorganism receives nutrients and residence; host is not affected.
Mutualism: Both organisms benefit. Example: Microbiota synthesize vitamins for the host.
Parasitism: One organism benefits at the expense of the other. Example: Pathogenic bacteria causing disease.
Summary Table: Resident vs. Transient Microbiota
Feature | Resident Microbiota | Transient Microbiota |
|---|---|---|
Duration of Colonization | Permanent, stable | Temporary, short-term |
Attachment | Firmly attached to body surfaces | Weakly attached or not attached |
Role in Health | Protective, beneficial | Usually harmless, sometimes pathogenic |
Removal | Resistant to removal | Removed by host defenses or competition |
Key Equations and Concepts
Microbial Antagonism:
Colonization Requirement:
Examples and Applications
Example: Lactobacillus acidophilus on the intestinal surface helps prevent colonization by pathogens and aids in digestion.
Application: Use of probiotics to restore normal microbiota after antibiotic therapy.