MICR 470 Exam #2 Study Guide PDF

Summary

This document is a study guide for exam #2 in MICR 470. It covers various chapters on different bacterial pathogens including their characteristics, transmission, and virulence factors.

Full Transcript

**Ch.9 Yersinia**

Pathogen type

- Facultative (with or without O2, unlike obligate), intracellular

Names:

- *Yersinia enterocolitica*: causes Yersiniosis

- *Yersinia pseudotuberculosis:* rare form of foodborne illness

- Yersinia pestis*:* the Black Death

Transmission:

- Pestis is transmitted by the flea

Types:

- Bubonic

- Transmitted by fleas

- Septicemic

- Pneumonic

- Transmitted p2p by droplets (Deadliest)

Discovery

- Alexandre Yersin

- Kitasato Shibasaburo

Protection

- Biofilm

- Main component: *N*-acetyl-*D-*glucosamine (glucose derivative)

- Produced by *hms* gene

- Biofilm regulation

- Cyclic-di-GMP

- Produced by diguanylate cyclase w/ GGDEF

- Degraded by phosphodiesterase w/ EAL or HD-GYP

- Binds to PilZ domains that inhibit:

- Motility

- Virulence

- Increases biofilm formation

- Rab proteins

- 4a and 1b inhibit phagolysosomal fusion

- Bacterial Secretion Systems

- All Type 3

- Type 3 all have injectosomes

- Effectors of T3SS = Yops

- Work together to prevent phagocytosis

- Examples: B,D,E,T,A,H,J (don't need to know)

- Yops and T3SS are **plasmid encoded**

- Plasmid encoded virulence factors are acquired through HGT

- pCD1 plasmid contains T3SS and Yop

Virulence Factors

- pMT1: genes that allow flea survival

- pPla: encodes plasminogen (protein that breaks down blood clots)

**Ch. 10 Borrelia**

Names/Diseases:

*Borrelia burgdorferi*: Lyme disease

- Has a linear chromosome (most bacteria have circular)

Transmission:

- Ticks

- Outer Surface Proteins

- A: adhesin that blocks complement activation

- C: binds to SALP proteins which inhibt immune response

- In tick: OspA = high

- Transmission: OspA decreases and OspC increases

Early Signs and Symptoms:

- Erythema migrans (bulls eye rash)

- Flu-like symptoms

Late Stage

- Neuroborreliosis

- Lyme Arthritis

Spirochetes (spiral noodle shape), do not have capsules

1. Lyme disease

2. Relapsing fever (***borrelia hermsii*)**

3. Leptospirosis (*Leptospira*)

4. Syphilis (*Treponema pallidum*)

Virulence Factors

- Periplasmic flagella (between inner and outer membranes)

- Protect from immune response + more powerful

- Antigenic variation (changing proteins on surface of bacteria)

- Surface protein in burgdoferi: VlsE

- Not expressed in ticks

- Pieces of silent cassettes to generate new antigens

- Not expressed in tick since ticks don't have adaptive
immunity

- Surface protein in hermsii: Vmp

- Switches cassettes to express on surface

Immune Evasion

- Most species can bind to component of complement

- Both Lyme and Relapsing can bind Factor H which is a way for
complement to prevent the system from recognizing itself

Two-component System Regulation

- Comprised of Histidine Kinase and Response Regulator

- Output for RR is transcription factor or enzymatic activity

- Only 2 systems in burgdorferi

- Hpk1-Rrp1

- Critical for tick survival

- Hpk2-Rrp2

- Critical for host survival

**Ch. 11 Streptococcus**

Names:

Lancefield groupings

- Pyogenes: Group A Strep

- Agalactiae: Group B Strep

- Pneumoniae

- No Lancefield carb antigen

Hemolysis Test

- Hemolysis = destruction of RBCs

- Most Lancefield streptococci are **beta-hemolytic** w/ large zone of
clearing around growth

- Viridians streptococci are **alpha-hemolytic** which is a partial
degradation of RBCs

- **Gama-hemolytic:** do not lyse RBCs

Group A Strep

- Symptoms of strep throat

- Impetigo (skin infection w/ sores and blisters)

- Scarlet Fever

- Rheumatic fever (immune response)

Infections

- Rheumatic heart disease

- Glomerulonephritis (kidney inflammation)

- Toxic shock syndrome (TSS)

- Necrotizing fasciitis

GAS Virulence Factors

Adhesion:

- Mediated by M proteins

- Bind to fibronectin and plasminogen

- Also bind to Fc portion of antibodies

- S. pyogenes uses molecular mimicry to evade immune system

- Capsule:

- S. pyogenes hyaluronic acid capsule

- Another mechanism of molecular mimicry since hyaluronic acid
is in host cells

- Also protects against complement

- Capsule Loss = Virulence Loss

- Lipoteichoic acid (LTA) is thought to facilitate weak attachment

- S protein binds RBC membranes to protect against phagocytosis

- Immunoglobulin: 3 IgG proteases that degrade IgG

- Family of proteins that trigger excessive stimulation of T cells

- All are exotoxins

- Exotoxin B (SpeB) degrades host serum proteins (\*\*not a
superantigen)

Cytolytic Toxins

- Streptolysin O (SLO)

- Streptolysin S (SLS)

- Both cause pore formation in host cell membranes

- Are cause of beta-hemolysis of GAS (rupture RBCs)

Antibiotic Resistance

- Sensitive to beta-lactams

- Fluoroquinolones (target DNA gyrase)

- Tetracycline binds to ribosomes and block translation

- Resistance comes from efflux pumps (transport substances out of
cell) and proteins (TetM and TetO, which are obtained by HGT)

- Macrolides (like erythromycin) bind bacterial ribosome and prevent
translation

- Resistance comes from efflux pumps

No vaccine!!!

- Due to cross-reactivity esp myosin proteins in human heart

Group B Strep: Streptococcus agalactiae

- All capsule types have sialic acid linked to many dif sugars

- Most common cause of meningitis in babies

Virulence Factors

Adhesins

- Bind fibrinogen or laminin

- Pili increases colonization of GBS

Hemolytic Pigment

- Responsible for resistance to elimination by immune system

- Also responsible for beta-hemolysis on agar plates

- Cell death also aids in crossing BBB

Crossing the BBB

- Paracellularly

- Alpha C protein (ACP) binds glycosaminoglycans

- Hypervirulent GBS adhesin (HvgA) contributes to BBB crossing

- GBS infection induces expression of Snail 1 that blocks
transcription of host cell junction genes

Streptococcus pneumoniae

- Most common cause of meningitis

Virulence factors

Capsule

- Polysaccharide capsule: antiphaygocytic and reduces complement

- Opaque colonies = more virulent

- Transparent colonies = more adapted to nasopharynx

- Inverted repeats cause phase variation (variation of protein
expression, frequently in an on-off fashion)

IgA1 protease

- Found at nasopharynx

- Prevents IgA from binding bacteria

- NanA cleaves sialic acid from hsot cells

- Pore-forming toxin that triggers immune cells to release ROS to
damage host tissues

- Transcellularly: aided by S. pneumoniae binding endothelial cells

- Paracellularly: mediated by pneumolysin

**Ch. 12 Staphylococcus**

Names/Disease:

- Staphylococcus aureus: staph

- Staphylococcal scalded skin syndrome (SSSS)

Virulence

- S. aureus releases 2 exotoxins related to SSSS

- Exfoliative toxins

- Bind to a desmosome in epidermis

- Breaks down desmoglein-1

- Staphylococcal Enterotoxins (SEs) (type of exotoxin)

- Superantigens that induce vomiting

- Superantigens bind both MCH class II and TCR and excessively
activate T cells

- Serotonin stimulation of vagus nerve induces vomiting

- Toxic shock syndrome toxin-1 (TSST-1)

- Also a superantigen

- Responsible for majority of toxic shock symptoms

- Mobile genetic elements

- Pieces of DNA that can move to other parts of genome/other
organisms

- SCCmec (cassette chromosome mec)

- Mobile genetic element that has *mecA* gene, responsible for
methicillin resistance in S. aureus

- *MecA* encodes for an alternate pencicillin binding protein
(PBP2a) which is not susceptible to beta-lactam antibiotics

- Staphylococcal Pathogenicity Islands (SaPIs)

- Carry many virulence toxins

- Alpha toxin

- Promotes invasion by disrupting epithelial barrier

- More common in pneumonia

- Leukotoxins

- Make pores in membrane (alpha toxin is type of leukotoxin)

- Most common in sepsis

Biofilm

Adhesion

- Uses many adhesins to begin formation of biofilm, many are MSCRAMMS
(microbial surface components recognizing adhesive matrix molecules)

- Components:

- Proteins sugars and DNAs

Staphylothrombin

- Binds fibrin, which leads to molecular mimicry and blockage of
neutrophil phagocytosis

- SpA (surface protein A) binds Fc portion of Igs = less opsonization
and phagocytosis

ROS protection

- Staphyloxanthin = orange pigment which scavenge radicals from ROS

- Superoxide dismutase converts superoxide to H2O2

- Catalase: detoxifies H2O2 to O2 and H2O

**Ch. 13 Bacillus**

Names/Disease:

- Bacillus anthracis: anthrax

- Sterne strain = annimal vaccine

- Still used today

- Has no capsule

Types

Cutaneous: spores enter skin, most common and least dangerous

Inhalation: inhalation = it sucks, deadliest form (55% death rate w/out
treatment)

Gastrointestinal: rare in the US, from undercooked food

Injection: spores injected during IV drug use

Spores

- Bacillus is spore-forming

- Spore: dormant form of bacteria

- Endospores: form inside bacterial cells of Clostridium and Bacillus

- Can withstand extreme environemnts

Spore Formation

1. Polar septum formation which creates mother cell (MC) and forespore
(FS)

2. MC engulfs FS

3. Cortex layer forms btwn the 2 membranes

4. Coat assembles around this cortex, resistant to many things

- Stress is thought to trigger spore formation

Capsule

- Comprised of polymer of poly-gamma-D-glutamic acid (PDGA)

Plasmids

- pX01: encodes for toxin

- pX02: encodes for capsule

Toxin

- Anthrax toxin = A2B toxin

- A subunits:

- LF (lethal factor)

- EF (edema factor)

- B subunit:

- PA (protective antigen)

- LF + PA = LT (lethal toxin)

- LF cleaves MEK, which disrupts cell signaling and causes
cell death

- EF+PA = ET (edema toxin)

- EF is an adenylyl cyclase (enzyme that converts ATP to cAMP)

- cAMP activates PKA

- LF and EF are thought to balance host cell killing w/ bacterial
dissemination

**Ch. 14 Clostridium**

- Obligate and spore-forming

Names:

1. Clostridium tetani

2. Clostridium botulinum

3. Clostridium perfringens

4. Clostridium difficile

Spores:

- Refer to spores for Bacillus

Activation

- Both Clostridium and Bacillus use Spo0A response regulator (opposite
to HK) to initiate spore formation

- Orphan histidine kinsases have been found that are thought to
phosphorylate and activate Spo0A

Two-Component Systems

- Consists of HK and RR, genes are often co-transcribed as part of 1
operon

C. tetani and botulinum (Tetanus and botulism)

Tetanus Symptoms

- Most common symptom is lockjaw

- All symptoms occur because of tetanus toxin (TeNT, 1 type)

Botulism Types

1. Foodborne

a. Comes from improperly preserved food

2. Wound

b. Commonly seen in IV drug users

3. Infant

c. Feeding honey to a \