The facts! – Gram negative – Spiral shaped – Micro aerophilic – Colonise the guts of chickens and rarely cause disease – If they get into the guts of humans, can cause gastroenteritis Bacteria most commonly spread by uncooked chicken Picture- Shows the falsely coloured, characteristic spiral shape of C. jejuni. In this image the flagella is coloured brown.

The statistics- C.jejuni is present in 65% of fresh chicken samples (source: 2007/8 survey). 1 in 5000 campylobacterosis patients develop GBS. GBS is fatal in 2-3% of cases Symptoms of gastroenteritis caused by C. jejuni (campylobacteriosis) include: – Bloody diarrhea – Dysentry – Abdominal pain This is caused by damage of the gut epithelium by C. jejuni In rare cases, campylobacteriosis can progress to the autoimmune disease Guillain–Barré syndrome

Flagella are filamentous ‘tail-like structures’ that bacteria use to move (motility) C. jejuni have two major flagellin genes; flaA and flaB – flaA is thought to be essential for assembly of flagella Unlike other bacteria, C. jejuni only express one ‘polar’ flagella at any one time Brown structures outlined are the flagella of C. jejuni.

Decreased ability to colonise the gut and cause disease This study from Wassenaar et al (1991) shows that disruption of flagella decreases the ability of C. jejuni to colonise gut epithelial cells. Since then many studies shown that flagellar motility is C. jejuni is essential for colonisation and disease! Note: R1-3 have defective flagella Fla- has flagella expression switched off Human intestinal cell line

- -Ca Campylobacter flagella flick to propel the bacteria forward. The flagella is one of the main factors leading to Campylobacter colonisation and disease The position of the flagella changes in response to chemical signals. This is called chemotaxis! FLAGELLUM

Bacteria lack the complex sensory system of higher eukaryotes. They therefore need a method to get to beneficial environments C. jejuni only have one flagella, therefore they need to know where to position it to get to these environments. ? ? ? ? ? ? ? ? ? ? ?

Chemotaxis is important for bacteria to : A) find food (chemoattractants) by swimming towards the highest concentration of food molecules, B) flee from poisons (chemorepellents). Effect of chemoattractants Effect of chemorepellents

All of the chemoattractants and chemorepellants add to give a direction of travel that is beneficial to the bacteria We call this direction the chemotactic gradient. Attractants Repellents + = Chemotactic gradient General direction of movement

Periodically, C. jejuni will display a behaviour called tumbling -This is a random change in direction Q: Why do bacteria tumble and how does C. jejuni ever get closer to food? A: The bacteria move further down chemotactic gradients before tumbling than up them! This means the general direction of movement will be towards the highest concentration of chemo- attractants and away from the highest concentration of chemo- repellents. During the video on the next slide, keep an eye on the direction of movement and try to work out which direction the chemotactic gradient is…

Highest concentration of chemo-attractants Highest concentration of chemo-repellents This explains why cells move further to the left, than any other direction following tumbling

This video explains the signal transduction mechanisms underlying motility in E.coli. This system is similar to the signal transduction cascade seen I C.jejuni motility!

Just to make motility in C. jejuni a bit more complicated… Flagellin genes in C.jejuni undergo a phenomenon known as Phase Variation. This is the random switching on and off of gene expression. Switching to the off phase diminishes motility in C. jejuni. You can learn more about phase variation and take our online tutorial on C. jejuni phase variation here!here!