5 - Lipopolysaccharide, periplasm and flagella

Question 1

Lipopolysaccharide info (LPS)

Answer 1

• Large complex molecules containing lipid and carbohydrate
  Used in:
• lipid A
• core polysaccharide
• O side chain
• called endotoxin when free in host (consequence of being in bloodstream)
• can induce massive immune response (septic shock)
• not a function of LPS but an effect of its interaction with innate immune system

Question 2

LPS structure - simple

Answer 2

Made of:
- lipid A
- Core polysaccharide
- O specific polysaccharide/O specific side chain

Question 3

Lipid A info

Answer 3

• two glucosamine residues linked to fatty acids and phosphate (occasionally more than one phosphate - e.g. pyrophosphate)
• integrated into the outer membrane
• component most immunogenic as endotoxin
• remaining LPS projects from cell surface from Lipid A

Question 4

Core polysaccharide in LPS info

Answer 4

• referred to also as R-antigen or R-polysaccharide
• made of 10 (mostly) unusual sugar residues (in Salmonella) - very specific to organism
• such as glucose, galactose, heptulose, etc.
• Core polysaccharide has side chains of NAG (used in peptidoglycan), phosphate and ethanolamine

Question 5

O side chain info

Answer 5

• Is a variable region - responsible for antigenic makeup of bacteria
• so this is part of LPS that interacts with other cells, involved in cell communication
• different O serotypes linked to diseases
• species specific attachment to specific receptors
• extends outwards from the cell
• lipid A and core polysaccharide are straight and O side chain is flexible and bent - easier to bind to specific binding sites and regions
• highly variable composition (at least 20 different sugars)
• rough (R)/Smooth(S) variants depend on O-specifc side chain length

Question 6

Function of LPS

Answer 6

• lipid A stabilises outer membrane structure
• core polysaccharide charged - contributes to negative charge on surface
• charged, hydrophilic external layer
• reduces permeability of hydrophobic substances
• e.g. prevent entry of bile salts, antibiotics used to kill bacteria
• protects against host defences
• rough LPS variants more susceptible to phagocytosis
• loss of O-antigen in E. Coli and other bacteria leads to reduced virulence
• O-antigen/side chain very variable, helps identify certain bacteria in diagnosis and medicine etc.

Question 7

Endotoxin release from bacteria

Answer 7

• many pathogens produce endotoxins
• released during cell division or by lysis of bacterial cells
• can act to prime immune system against a pathogen
• if in blood, LPS can cause septic shock syndrome
• no direct treatment
• endotoxins immunogenic even in absence of living cells
• LPS of some non-pathogens can also be endotoxin
• test for endotoxin:
• rabbit pyrogen test - old
• now use LAL essay

Question 8

Old and new method of testing for endotoxins in blood if infected by bacteria

Answer 8

Old: rabbit pyrogen test - ethics
New: LAL essay

Question 9

Important properties of endotoxins

Answer 9

• heat stable
• toxic in nano gram amounts (very small amounts)
• interacts with innate immune system cells
• this can trigger release of cytokines in a cascade
• actives transcription factors and other immune responses etc,

Can result in varying symptoms after infections and disease, inflammation, fever, etc.

Question 10

Why don’t phages mutate to become more efficient

Answer 10

Mutations make cells more susceptibile to phage infection, as they are sites in which
phages can pump DNA into the cell

Question 11

Outer membrane as a permeability barrier

Answer 11

• outer membrane more permeability - due to presence of porins
• porins are protein channels that permit passage of small molecules up to around 600 Da (molecular weight units)
• larger molecules can also cross OM (outer memebrane) , via AT, through AT systems but not through porins

Question 12

Porin super family info

Answer 12

• homotrimeric (three identical units of polypeptide), transmembrane proteins
• highly conserved structure
• as have similar amino acids involved in binding and transfer of molecules across the membrane
• form water filled channels in OM

Question 13

Porin selectivity

Answer 13

• most are non-specific channels that allow passage of small (<600 Da) hydrophilic molecules
• most porins are slighlty cation selective
• some porins are selective, etc.
• substances that attack bacteria exploit the porins in outer membrane and their selectivity

Question 14

Periplasmic space info

Answer 14

• compounds diffuse through porins into periplasm
• periplasm is the space between outer membrane and cytoplasmic membrane
• ranges in size from 1-70nm
• can be up to 40% of cell volume
• gel-like consistency due to abundant proteins
• removal of cell walls without lysing the cells allows study of proteons and ezymes present in this space

Question 15

Enzyme activity in periplasm examples/info

Answer 15

• nutrient acquisition - hydrolytic enzymes
• energy conservation - ETP proteins
• some peptidoglycan can synthesise enzyme in periplasm
• periplasmic binding proteins - ABC transporters - deliver specific compounds to ABC transporters in cytoplasmic membrane
• chemoreceptors - involved in chemotaxis

Question 16

Protein export pathways into periplasm

Answer 16

• Sec pathway
• TAT pathway

Question 17

endotoxin info

Answer 17

• LPS is called endotoxin when free in host (consequence of being in bloodstream)
• can induce massive immune response (septic shock)
• not a function of LPS but an effect of its interaction with innate immune system

Question 18

tests for endotoxins

Answer 18

Old - rabbit pyrogen test
New/current - limulus amoebocyte lysate (LAL) assay

Question 19

porins properties - when viewed from top-down view

Answer 19

• has a white-meshed surface - solvent accessible
• high thermal stability
• highly resistant to protease and detergent degradation
• essential for survival of Gram -ve bacteria in harsh environments - e.g. intestinal tract

Question 20

porins structure

Answer 20

• common beta-strand structure
• unusual structure
• 16 stranded antiparallel B-barrel
• exceptionally stable
• extra stability from formation of a salt bridge between N- and C- termini
• produces an essentially closed structure

Question 21

cross-section of porin monomer info

Answer 21

• hourglass shape with a central constriction - varies from different porins
• size of molecule that can fit through porin depends on size of that constriction
• hydrophobic band of 25 A that sits in membrane

Question 22

Periplasm transport - Sec pathway

Answer 22

• exports nascent polypeptide through cytoplasmic membrane using a translocase
• folding of protein occurs in the periplasmic space - after translocation
• proteins in this pathway have an N-terminal signal peptide

Question 23

TAT pathway - periplasm transport info

Answer 23

• export fully folded enzymes across cytoplasmic membrane
• proteins have twin arginine in N-terminal region - tells proteins to use TAT pathway

Question 24

Three classes of membrane transport systems across cytoplasmic membrane

Answer 24

• Simple transport
• Group translocation
• the ABC system