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Introduction to anaerobes

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Title: Introduction to anaerobes


1
Introduction to anaerobes
2
Introduction
  • Believe it or not oxygen is a highly toxic
    substance. Some forms are more toxic than
    others.
  • Use of oxygen, or in some cases merely surviving
    in its presence requires mechanisms to deal with
    oxygen toxicity.
  • Charged, electron withdrawing oxygen free
    radicals are referred to as reactive oxygen
    species (ROS). ROS are potent oxidants that can
    at least break bonds and cause damaging mutations
    (sometimes carcinogenic).
  • All organisms capable of aerobic respiration
    depend on 2 protective mechanisms 1) oxygen
    reducing cytochrome oxidase proteins (vs
    cytochrome oxidases involved in anaerobic
    respiration) that terminate their electron
    transport systems, and 2) two enzymes that work
    together to detoxify a particular ROS by-product
    of aerobic respiration superoxide (O-2)

3
Introduction
  • 2 H 2 O-2 ? Superoxide dismutase (SOD) ? H2O2
  • 2 H2O2 ? Catalase ? 2 H2O O2
  • Together these enzymes convert the ROS superoxide
    into harmless water and molecular oxygen.
  • Obligate anaerobes produce neither of these
    enzymes.
  • The term obligate anaerobe does NOT necessarily
    imply that oxygen is bacteriacidal, although this
    is the case for some unusual strict obligate
    anaerobes such as the Methanogens.
  • Medically important obligate anaerobes can
    survive the presence of oxygen but cannot grow in
    it (ie. oxygen is bacteriastatic to them).
    Actually, they can grow in O2 less than 0.5.

4
Introduction
  • Strict obligate anaerobes could not function as
    pathogens due to limiting concentrations of
    oxygen in every body tissue. Consider the
    difficulty of manipulating samples and culturing
    strict obligate anaerobes!
  • Obligate anaerobes are also sensitive to positive
    redox potential values (redox is short for
    oxidation-reduction).
  • Positive redox values (Eh) indicate a tendency
    to oxidize (withdraw electrons) as does oxygen
    (aerobic env.). Negative redox values (-Eh) tend
    to reduce (donate electrons) which is indicative
    of anaerobic environments, and favorable to
    obligate anaerobes.
  • They prefer Eh lt -50mV. Reducing conditions are
    maintained in media using reducing agents such
    as thioglycolate or the amino acid cysteine.
    Reducing agents are synonymous with the idea of
    anti-oxidants.

5
Introduction
  • Obligate anaerobes (I will just call them
    anaerobes from now on) fall into 2 metabolic
    groups. The fermenters do not conduct
    respiration at all and require no terminal
    electron acceptor. They are slow growing as
    fermentation is a relatively inefficient means of
    acquiring energy. Among the anaerobes,
    fermenters are relatively oxygen tollerant
    (generalization). Medically important anaerobes
    are fermentors.
  • Other anaerobes conduct anaerobic respiration.
    Here a non-oxygen terminal electron acceptor is
    used. They inhabit sub-surface environments
    (soil, benthose, other) and generate reduced
    compounds such as sulfide, ammonia, methane, and
    reduced metals such as ferrous iron. They are
    cool but not medically important so who cares,
    right?

6
Introduction
  • Anaerobes can be found in or on virtually any
    body location, but are most prevalent in the oral
    cavity, GI tract, genitourinary tract, all mucous
    membranes and even skin.
  • These guys utilize your body chemistry and other
    microbes to shelter them from oxygen or scrub
    oxygen from their surroundings.
  • Mucous membranes possess natural reducing agents
    such as vitamins, poysaccharides, lipids and
    proteins. Anaerobes can submerge in the mucous
    as a O2 shelter
  • Anaerobes often exist in a microbial community
    which includes aerobic organisms that consume or
    scrub oxygen from the surroundings. These
    biofilms are stratified with anaerobes being in
    a lower layer of the film.

7
Introduction
  • Anaerobes relationship with the human host is
    varied.
  • Some anaerobic species have important human
    mutualistic function, including normal colon
    flora that aid in digestion (Bacteroides), and
    acidification of the female genitorurinary tract
    (Lactobacillus). Others are now considered
    commensal, but all of the above at least control
    growth of opportunistic pathogens.
  • Types of human pathology associated with
    anaerobic bacteria include intra-abdominal
    infections, pulmonary infections, pelvic
    infections, brain abscesses, skin and soft tissue
    infections, oral infections, and bacteremia and
    endocarditis. With the exception of the
    Clostridia, the mechanism by which the anaerobes
    cause human pathology is not well understood

8
Methods
  • An anaerobic environment can be provided in
    several ways. These include pre-reduced
    anaerobically sterilized media (PRAS), Gas Pak
    Jar, anaerobic pouch, anaerobic glove box, and
    roll tubes
  • PRAS media are commercially available in agar
    plates, agar slants, or broths. They are
    manufactured in an oxygen free environment and
    packaged individually in air-tight sealed pouches
    or bags.
  • Regular commercial media can be pre-reduced by
    placing it an anaerobic jar or glove box for a
    few hours prior to inoculation with clinical
    specimens
  • The Roll tubes technique was developed at
    Virginia Techs Anaerobe Lab, and is excellent
    for maintaining a completely anaerobic
    environment. However, the technique is very
    tedious and rarely used in the clinical laboratory

9
Methods Gas Pak
  • The anaerobic jar method (e.g. Gas Pak Jar) was
    introduced into the clinical laboratory over 30
    years ago and was the most commonly used method
    until introduction of the anaerobic pouch
  • Inoculated anaerobic culture media are placed in
    the jar
  • An envelope (i.e. Pak) containing sodium
  • borohydrite and sodium carbonate is placed
  • in the jar to generate hydrogen and CO2
  • Water is added to the envelope which is
  • also placed in the jar. A methylene blue test
  • strip is added, and the jar is sealed.

10
continued
  • Hydrogen generated when water combines with the
    borohydrite chemically binds to oxygen trapped in
    the sealed jar to form water an anaerobic
    environment
  • A small wire basket attached under the lid
    contains aluminum pellets coated with palladium.
    This serves to rapidly catalyze the reaction.
  • If the lid of the jar is not warm to the touch
    within 40 minutes after it is sealed, or if
    condensation does not form within the jar within
    25 minutes, the jar should be opened and entire
    process be repeated
  • Likewise, if the methylene blue indicator strip
    in the jar or pouch does not turn white within
    one hour, the process should be repeated

11
continued
  • The sodium bicarbonate in the envelope releases
    carbon dioxide. This is unrelated to the
    production of the anaerobic environment, however,
    growth of most anaerobes in culture is enhanced
    by the presence of carbon dioxide
  • Hydrogen sulfide and other gases produced by
    bacterial growth can poison the palladium
    catalysts when used over and over. To prevent
    this, the palladium catalyst should be
    periodically heated in a dry oven at 160-170oC to
    remove the contaminating gasses and thus
    regenerate the palladiums catalytic abilities.
    This is referred to as re-charging the
    palladium.

12
Gas Pak Jar
Clamp
Lid
Palladium catalyst in wire basket
H2 CO2
H2O
Sodium bicarbonate
Foil Envelope Gas Pak
Sodium borohydrite
Culture Plates
13
Anaerobic Pouch
  • Anaerobic pouches work similarly to gas pak jars
    and are currently most often used in the clinical
    laboratory
  • They are sealable bags made of oxygen impermeable
    see-through plastic material
  • They hold one to two agar plates or a few tubes
  • The major advantage of anaerobic pouch is that
    plates and tubes can be examined without opening
    to pouch thus avoiding exposing them to oxygen if
    there is no growth
  • They are also more convenient.
  • See Figure 14-7 on page 729.

14
Anaerobic Chambers and Holding Jars
  • Anaerobic glove boxes or chambers and holding
    jars are self-contained anaerobic chambers.
  • Air is removed with a vacuum pump and replaced by
    oxygen free gas (usually 85 nitrogen, 10
    hydrogen and 5 carbon dioxide) from compressed
    gas cylinders
  • The anaerobic glove box has a sufficiently large
    volume to allow culture and media manipulation.
    Specimens and media can be passed in and out of
    an automatic entry lock
  • Technicians place their hands in the gloves
    protruding into the chamber
  • The main purpose of the anaerobic holding jar is
    to pre-reduce media and hold it under these
    conditions until there are enough specimens to
    fill a gas generating jar

15
Glove box
16
Culture of Anaerobes
  • Specimens must be placed in a transport system
    that excludes oxygen (reducing agent, etc.), and
    be processed with a minimum exposure to oxygen
  • Media must be less that 1 week old or be
    pre-reduced, in either case to reduce ROS
    concentration
  • Tom Pre-reduced media can be placed in a sealed
    cellophane bag in a refrigerator (???) for a few
    days or it can be used immediately.
  • Anaerobe recovery media should include
    non-selective, selective and enrichment types.
  • Vitamin K and hemin are commonly added to
    anaerobe culture media as these are absolute
    growth requirements for some clinically
    significant anaerobes
  • For a non-selective medium, CDC suggest a
    modified blood agar (AnBAP) with the above as a
    general purpose medium. It will recover
    anaerobes but other pathogens as well, which is
    important. BHI is also good, among others

17
Culture of Anaerobes
  • Thioglycollate enriched with vitamin K and hemin
    or chopped meat glucose are usually included as a
    back-up broth in case the anaerobic technique
    fails due to technical problems. Thioglycolate
    (S) is a good reducing agent and anaerobes such
    as Clostridia like meat.
  • For selective media, anaerobic phenyl ethyl
    alcohol (PEA) agar can grow most anaerobic
    bacteria, as well as aerobic or facultatively
    anaerobic bacteria. The PEA inhibits the
    swarming of Proteus and growth of most other
    potentially contaminating enteric gram negative
    rods
  • Kanamycin/Vancomycin is a good selective medium
    when Gram negative anaerobes such as Bacteroides,
    Prevotella and Fusobacterium are suspected.
    Kanamycin inhibits the enteric rods (but these
    anaerobic genera are resistant), and vancomycin
    inhibits Gram positive cells.

18
Aerotolerance Tests
  • Anaerobic growth is no guarantee that the
    organism is an obligate anaerobe could be
    facultative or aerotollerant.
  • Colonies growing on agar plates incubated
    anaerobically must be subcultured to two
    different media to see if it is an obligate
    anaerobe
  • One of the sub-cultured plates is incubated in
    air and the other is incubated in an obligately
    anaerobic environment

19
Example Aerotolerance Tests
A
B
A
B
C
D
D
C
Four different morphotypes grew on the original
an- aerobic plate. Each was subcultured to two
non-selective enriched blood agar plates. The
plate on the left was incu- bated anaerobically
and the plate on the right was incubated in air.
Organisms A and C are obligate anaerobes.
Organ- ism B is a facultative anaerobe. Organism
D is either an very strict obligate anaerobe or
requires longer incubation (further testing is
required)
20
Identification
  • Identifying anaerobic bacteria to species is
    technically challenging in most cases.
  • Fortunately species identification is often not
    necessary. A mixture of anaerobes in a clinical
    specimen is often reported as such with no
    further testing.
  • With a few exceptions presumptive ID via
    morphology and a few simple tests is sufficient
    information to allow appropriate antimicrobial
    therapy
  • Most anaerobes have a predictable antimicrobial
    sensitivity pattern antimicrobial susceptibility
    testing of anaerobes is therefore rarely required
  • Standard drugs such as penicillin, clindamycin or
    metronidazole are almost always effective against
    obligate anaerobes

21
Species Identification
  • There are many commercially available
    identification kits for identifying obligate
    anaerobic bacteria.
  • Some require standard inoculation and extended
    anaerobic incubation prior to reading results.
    Others utilizing heavy inocula give quick results
    from pre-existing enzymes. These therefore do
    not require anaerobic incubation.
  • Reference labs ID anaerobes chromotographically
    on the basis of fatty acid methyl ester (FAME)
    profiles
  • Other macromolecule probes or homology can be
    used as well
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