Introduction to Microbial Pathogenesis PDF

Summary

This document provides an introduction to microbial pathogenesis, covering topics such as host-microbe interactions, virulence factors, and Koch's postulates. The text also discusses the molecular mechanisms behind microbial interactions. It's a good resource for learning about the various aspects of microbial pathogenesis and potential clinical applications.

Full Transcript

Introduction to microbial pathogenesis

Interaction between host and microbe

SARS-Cov-2 host and microbe interaction via spike protein (ACE-2 receptors)

Quiz content meanings:

Microbe

Mutualism

Commensal

Parasite

Pathogen

Microbial pathogenesis

Virulence

Virulence factors

Avirulence

In vitro

In vivo

episome

Gut bacteria dominated by anaerobic bacteria

More gut bacteria than host cells 10^13 vs 10^12

To demonstrate if a pathogen causes disease -> koch’s postulates, molecular kochs postulates

Molecular interactions

KOCH’S POSTULATES

1) Microbe found in diseased tissue but not in normal tissue
2) Microbe can be isolated from diseased tissue as pure culture
3) Microbe can cause disease when inoculated in animal or man
4) Microbe must then be reisolated in pure culture from animal or man
 5) Therapeutic or preventaitve measuees eliminated disease

MOLECULAR KOCHS POSTULATES (defining virulaence factors)

1) Virulence gene is associated with bacteria that cause disease but is absent or inactive in
strains that fail to cause disease
2) Disrupt gene in virulent strian -> avirulence
3) Introduced cloned-gene into avirulent strain -> virulence
4) Gene is expressed during infection

Up to date kochs postulates

Metagenomics -> bullk sequencing

Next generation sequencign (NGS) identifictaion

Quantitative real time PCR

COMPLICATED INFECTIOUS FORMS OF BACTERIA

L-forms

Cell wall deficient bacteria

Biofilms

ATTRIBUTES TO A SUCCESSFUL PATHOGEN

1) Colonise
2) Persist (to find a unique niche or to subvert host defences)
3) Disseminate
4) Cause disease

Intracellular pathogens can persist by avoiding host defences ie. Laying dormant

IDENTIFICATION OF VIRULENCE FACTORS

1) Secreted proteins and abundant surfaces
2) Highly antigenic proteins (serum antibodys act as probes)
3) Signature tagged mutagenesis (to identify genes required for the survival of the
pathogen) also for identifying genes essential for growth in vivo
4)

COMPLEMENTATION SCREENING
To compare for gain of function phenotype for example e.coli does not usually enter epithelial
cells but with the yersinia gene it does enter through epithelial cells.

EPISOMAL EXPRESSION

The genetic elements of some bacteria cells used to replicate independently is used to allow
the expression of a foreign gene or the complementation of a mutation.

PATHOGENICITY ISLANDS

- Virulent genes clustered into a specific area of the genome
- Virulent genes are normally found in pathogenicity islands or scattered around in the
core genome.