Test 3- Mycobacterium

Question 1

Mycobacterium

Answer 1

• Gram positive,

• Acid Fast positive bacteria

• Important human and animal pathogen

Question 2

Mycobacterium spp.

Answer 2

Bacteria that contain mycolic acid and have a unique peptidoglycan chemotype

Question 3

Answer 3

stain lightly gram positive

Question 4

Answer 4

Acid Fast stain positive

Question 5

Mycolic Acids

Answer 5

Fatty acids in the cell wall
Carbon chain length varies by Genus

Rapid-growing Mycobacterium spp have shortest chains Slow-growing Mycobacterium spp. have Longest chains Corynebacterium has the shortest

mycobacterium have the longest

Question 6

Properties Attributed to Mycolic Acid in Mycobacteria

Answer 6

Acid fast staining

Drug, chemical and environmental resistance

Immunomodulating activities

(lipoarabinomannan, lipoarabinogalactan, wax D)

Prevent phagocytic killing- why they can survive in the cell

(trehalose dimycolate - cord factor)
(phenolic glycolipid - scavenger of oxygen radicals) (sulphated glycolipids - prevent lysosome fusion)

Question 7

Acid Fast Stain

Answer 7

A differential stain that uses a lipid permeablizing first step (with heat or chemical solvent);

1. Primary stain
2. An acidic alcohol decolorizing step
3. A counter stain

(Carbol fuschin>decolorizer>Methylene Blue) Examples

Ziehl-Neelsen Stain
Kinyons stain
Auramine Rhodamine stain(Fluorescent based stain- Very sensitive) for TB

Question 8

Habitat of Mycobacterium spp.

Answer 8

Some species are obligate pathogens- always ass with disease

(M. tuberculosis complex, M. avium subsp paratuberculosis, M. leprae, M. lepraemurium)

• *Opportunistic Pathogens**- present in the soil and water
• *Many species are soil / water saprophytes**

(rapid-growers, M. avium complex, M. kansasii, M. intracellulare, etc.)

Under optimum conditions obligate pathogens can survive in a contaminated environment for extended periods

Question 9

Identification of Mycobacterium sp.

Answer 9

Runyongroups:

Growth patterns:
Photochromogens (pigmented in the presence of light)

Scotochromogens (pigmented in the absence of light) Non-Chromogens

Rapid growers (\< 7 days)
Slow growers (2-10 weeks)
Mycobactin dependent (exogenous siderophore)

Biochemical patterns (limited specialty techniques)

Total cell fatty acid analysis

Nucleic acid detection (DNA probes/PCR)

DON’T HAVE TO REMEMBER THIS SLIDE

Question 10

Mycobacterium Virulence Factors

Answer 10

1. Mycolic acid containing cell wall lipids

Facilitate Survival in macrophage (Facultative intracellular Pathogens) Stimulate cytokine production
Enhance Adjuvant / immunomodulating effects

2. Cell protein antigens

Tuberculin> purified protein derivative > specific tuberculoproteins

Protein exotoxins and extracellular enzymes generally do not play a prominent role in disease pathogenesis

(except M. ulcerans – mycolactone(-mycins antiboditics)/macrolide toxin)

Question 11

Diseases caused by Mycobacterium spp.

Answer 11

• Mammalian tuberculosis:

Avian tuberculosis:(M. avium subsp. avium serotypes 1-3)

Leprosy: M. leprae (human), M. lepraemurium (cat)

Johne’s disease: M. avium subsp. paratuberculosis

(M. tuberculosis complex –M. tuberculosis, M. bovis, M. africanum, M.microti)

Question 12

M. tuberculosis

Answer 12

• Humans are the main reservoirs

• Tuberculosis (TB) is second only to HIV/AIDS as the greatest killer worldwide due to a single infectious agent.

Question 13

Emerging zoonosis and anthropozoonosis

Answer 13

• Dogs, cats, pigs, nonhuman primates
• Psittacine birds and canaries are susceptible to tuberculosis
Elephant-to-Human Transmission of Tuberculosis Endemic infections in some wild life populations

Eg. Banded Mongoose in Botswana
Suricates in south Africa

Question 14

Drug resistant

Answer 14

Multidrug resistant TB (MDR-TB)
Resistant to at least isoniazid and rifampin

Extensively Drug resistant TB (XDR)

Resistant to isoniazid and rifampin, plus any fluoroquinolone and at least one of three injectable second-line drugs (i.e., amikacin, kanamycin, or capreomycin).

Question 15

Mycobacterium bovis

Answer 15

Cause zoonotic TB

Ingestion, inhalation and, less frequently, by contact with mucous membranes and broken skin.

Wide host range and geographic distribution

GI tract is the main portal of entry

MI and Texas- DEER

Question 16

M. bovis: Host range

Answer 16

host range: Ireland & UK(badgers), New Zealand(

Maintained primarily in bovine species but has the broadest host range of all TB organisms and can infect several wildlife species (especially cervids in US)

Usually survives only a few weeks outside of host

Causes disease indistinguishable from that of M. tuberculosis in humans

Question 17

Transmission of M. bovis

Answer 17

cattle- any organ

cats- get via ingestion

dog- get from humans or ingestion

birds

Question 18

Answer 18

TB in wild deer

can also be in the lymphnode as shown below

THESE ARE GRANULOMAS

Question 19

Other reservoirs of Mycobacterium bovis

Answer 19

• Badgers in UK
• Feral Brush tail possums: New Zealand

Question 20

M. bovis infection (bovine tuberculosis)

Answer 20

Chronic, progressive and latent infections

Disease is seldom apparent until it has reached advanced stages (months)

Some infected livestock appear in prime condition showing no evidence of infection until slaughtered and then may be so severely affected that the carcass is condemned

In some cases the organisms remain dormant in the body for lifetime without causing progressive disease

Question 21

M. bovis: Transmission

Answer 21

• Aerosol transmission most common among

cattle (greatest risk occurs in enclosed or crowded areas eg. barns,, markets, shared watering/feeding places)

• *• May be shed in milk** (most human infections prior to widespread pasteurization resulted from drinking or handling contaminated milk)
• *• Can enter body at any site**

AEROSOL AND INGESTION- MOST COMMON

Question 22

M. bovis: Clinical Signs

Answer 22

Signs vary greatly with extent of exposure and site of infection

Enlarged regional lymph nodes and generalized wasting (cachexia) are seen in advanced disease stages. Pulmonary forms may be associated with chronic cough

Question 23

M. bovis: Pathology

Answer 23

May cause lesions in any organ

In early stages lesions difficult to find at necropsy

Some early lesions may grossly appear abscess-like

In later stages firm, nodular lesions become evident in target organs and associated lymph nodes (lungs, head, gastrointestinal)

MAIN LESION IS GRANULOMA IN MYCOBACTERIA(INCLUDING TB)

Question 24

Pathogenesis

Answer 24

Bacilli are phagocytosed by macrophages>Infected macrophages secrete TNF-alpha and IL-12>T-helper 1 lymphocyte activity and >secretion of INF-gamma and

IL-2 >Cell mediated immunity and destruction of bacilli

If the bacilli survive, infected macrophages are killed following stimulated release of macrophage-derived cytotoxins and enzymes (type IV hypersensitivity or Delayed type hypersensitivity), which leads to tissue destruction and caseous necrosis WITH MINERALIZATION

Liquefaction and cavity formation result from enzymatic action.

Rupture of these cavities allows dissemination.

Question 25

Lesions

Answer 25

Tubercles are the classic lesion of tuberculosis.

These are well-organized granulomas of varying size with central areas of either solidly packed epithelioid macrophages (“hard” tubercle) or caseous necrosis (“soft” tubercle) surrounded by epithelioid cells and scattered multinucleated giant cells(Langhan’s cells).

A rim of lymphocytes and fibrous connective tissue surrounds mature lesions. In advanced stages, cavity formation may occur.

Acid fast bacilli are seen within macrophages or extracellularly within a caseous core.

Question 26

Elements of a Tubercle

Answer 26

Granuloma formation as a result of Cell mediated immune response

Activated macrophage/epithelioid cells

Coagulative /caseous necrosis

Fibrosis (fibroblasts/collagen)

Mineralization (liquefaction may also occur)

Question 27

Answer 27

Granulomas in the lungs

Question 28

Answer 28

Langhan’s giant cells- multi-nucleated in the center with macrophages

Question 29

M. bovis: Diagnostic Tests

Answer 29

Tuberculin hypersensitivity skin tests

(low sensitivity in some species, eg. cervids)

• Read reaction at injection site after 72 hrs - TYPE IV DELAYED HYPOSENSITIVITY(cell-mediated immune response)
- screening test in caudal tail fold with single-strength

dose of M. bovis PPD
- suspect reactors in screening test are subsequently

tested by paired cervical tests with double strength M. bovis PPD and M. avium PPD in separate areas of the neck

Question 30

Caudal Fold Tuberculin Test (screening test)

Answer 30

• single strength bovine PPD is injected intradermally into the caudal tail fold

SENSITIVE BUT NOT SPECIFIC( lots of Mycobacterium found in the soil)

Question 31

Comparative Cervical tuberculin skin test

Answer 31

(confirmatory test with double strength bovine + avian PPD injected intradermally into different sites of skin on the neck

skin thickness is measured before and after

MAKE SURE IT”S MYCOBACTERIUM BOVIS

Question 32

M. bovis: Diagnostic Tests

In vitro

Answer 32

• In vitro whole blood tests for cell-mediated immunity:

(generic test description = interferon gamma release assays) - Bovigam - bovine sp. only, contains PPD
- QuantiFERON-TB Gold – human/primates only,

contains mixtures of synthetic peptides derived from 2

tuberculoproteins, ESAT-6 & CFP-10
- lymphocyte proliferation assays (can be used in zoo & wild sp.)

Question 33

M. bovis: Diagnostic Tests

Post mortem examination/Histopathology slaughter checks

Answer 33

Post mortem examination/Histopathology slaughter checks

(most effective in low prevalence areas)
• Granulomatous lesions in lymph nodes and major organs

MOST COMMON

Question 34

M. bovis Diagnostic Tests- SMALL ANIMAL

• Imaging techniques

Answer 34

• Imaging techniques (radiograph, CT, etc) live animal – rarely used for bovine TB dx

Question 35

M. bovis: Diagnostic Tests Direct Examination of Tissues (from live or dead animals)

Answer 35

Acid fast stained smear (sensitivity may be low due to low numbers)

Nucleic acid detection
PCR on fresh or fixed lymph node tissues

Fatty acid methyl ester (FAME) detection by HPLC (rarely used for bovine TB dx)

Question 36

M. bovis: Diagnostic Test

• Culture

Answer 36

• Culture (special procedures /media required) - conventional tube media slants
- liquid media used with automated,

continuously monitored incubators

Question 37

M. bovis: Treatment

Answer 37

• Treatment of bovine TB is not practical or efficacious
• Optimum human treatment may achieve success rates of >95%

Question 38

Anti-tubercular Drugs

Answer 38

Anti-tubercular Drugs (always used in combinations to treat active tuberculosis)

Primary Drugs

• Isoniazid

• Rifamycins
(rifampin, rifabutin, rifapentin)

• Ethambutol
• Pyrazinamide

Secondary Drugs- for Multidrug resistant TB

•Aminoglycosides

( streptomycin, kanamycin, amikacin, capreomycin)

•Fluoroquinolones
( levofloxacin, moxifloxacin,

gatifloxacin)

• Ethionamide
• Cycloserine
• 4-Amino Salicylic

acid (PAS)

Question 39

Problems with TB Treatment

(human)

Answer 39

Single drug activity limited

(bacteria present within a lesion can be extracellular, intracellular, grow in logrithmic phase and exhibit quiescent, stationary phase physiology)

Multiple drug resistance (MDR/ XDR)

Prolonged treatment needed

Lesions walled off, poor drug distribution (reactivation)

Question 40

Elements of bovine TB eradication programs

Answer 40

• Disease surveillance
• Pre and post movement cattle testing
• Removal of cattle exposed to bTB
• Tracing the potential source of infection
• Wildlife control (including culling/vaccination trials)

Question 41

USDA-APHIS Accredited-Free Status

Answer 41

Applied to States or herds

No confirmed cases for 5 years

States must have laws/rules in place governing bovine TB

Herds must adhere to a schedule of whole herd tuberculin testing

Maintain records for trace back

Question 42

M. bovis: Vaccination

Answer 42

There are no vaccines currently available for TB in cattle; experimental vaccines are being investigated for cattle, wildlife and people- DON”T WANT A FALSE POSITIVE WHEN YOU DO INTRADERMAL TEST

Human vaccine (BCG(used to treat bladder cancer) – originally of M. bovis phenotype) is used in high prevalence areas:

Vaccine is considered suboptimum and efficacy is questioned. Also interferes with diagnostic tests. Not used in the U.S.

Question 43

Mycobacterium leprae

Answer 43

Leprosy or Hansen’s disease

Chronic granulomatous debilitating disease

Anaesthetic skin lesions(lost of sensation), peripheral neuropathy, and nerve thickening

Transmission from shedding through nose not from skin

Nine banded Armadillo in southern united states is the only known animal reservoir

Can not be cultured in vitro

Question 44

Properties of mycobacteria include all except;

a. presence of mycolic acid
b. positive acid fast staining
c. presence of lipid compounds in the cell wall
d. may survive in the macrophages
e. all members are obligate pathogens

Answer 44

E

some are opportunitistic pathogens

some live in the soil

Question 45

Properties of mycobacteria inlcude all except:

A. variable mycolic acid length depending on species

B. complete of partial acid fast staining

C. Presence of lipid compounds in the cell membrane

D. May survive at lower pH

E. some members are saprophtic

Answer 45

C

Because they don’t have a cell membrane!

Question 46

Which of the following staining method is not an acid fast stain?

A. Kinyoun’s

B. Ziel-Neelsen

C. Auramine rhodamine

D. Gemisa

Answer 46

D.

Floursent microscope- auramine

Question 47

Mycolic acid present in the cell wall of Mycobacteria facilitate Phagocytosis and removal of mycobacteria

T/F

Answer 47

False-

mycolic acids helps the bacteria to survive inside the phagocytic cell

Question 48

Which of the following mycobacterium is a common cause of zoonotic Tuberculosis?

Answer 48

M. Bovis

Question 49

All of the following animals are reservior of M. Bovis in certain geolocations except

A. Elephants

B. Cattle

C. Badgers

D. Brush tail possums

Answer 49

Elephants- reserviors of M. Tuberculosis which they can transfer to humans

Question 50

Which of the following is incorrect about mycobacterium infections?

A. induce granulomatous inflammation

B.Multinulceated macrophages are common in lesions

C. Caseous necrosis and mineralization may be present in the lesion

D. Humoral immunity helps in protecting from infections

Answer 50

D. It’s Cell mediated (T cells)

Question 51

Combination antimircobial thearpy is essential in the treatment TB to kill multiple species mycobacterium present in a lesion.

Answer 51

FALSE-

Combination therapy is used because of resistance and the organism can be intercelluar or extracellular.

Most of the time, these are single TB infections

Question 52

Tuberculoid leprosy

Answer 52

Tuberculoid leprosy (paucibacillary)- few AFB- few bacteria

good cell mediated response

Question 53

• Lepromatous leprosy (multibacillary)-

Answer 53

Lepromatous leprosy (multibacillary)- No cell mediated response, severe disease with numerous bacteria

MORE INFECTIOUS

Question 54

Mycobacterium lepraemurium

Answer 54

• Feline and Murine Leprosy
• Solitary or multiple cutaneous nodules or ulcerated lesions
• Very fastidious organism(hard to culture)

• Granulomatous Dermatitis Panniculitis(inflammation of the Sq tissue)

Question 55

Answer 55

Canine Leproid granulomas

Question 56

Diagnosis

Answer 56

Direct staining (Geimsa or Acid Fast staining)

In Geimsa or Gram stain-Negative stained bacilli are generally observed

Culture

Biopsy and Histopathology

PCR (Genus specific PCRs)

Question 57

Treatment

Answer 57

• Surgical excision
• Rifampin, Clarithromycin, Clofazimine

• Combination therapy ?- always USE! otherwise you get resisitance
• Long term therapy
• In dogs, Doxycycline can be effective.

Question 58

Saprophytic Mycobacterial Species

Answer 58

Rapid-growing species: eg. M. fortuitum, M. abscessus, M. chelonae, M. smegmatis

Slow-growing species: eg. M. avium, M.kansasii, M. marinum

Granulomatous to pyogranulomatous host response- ALL CAN CAUSE

Chronic, non-healing cutaneous lesions (panniculitis, cutaneous ulcers) and Lack of response to common antibacterial treatments

Internal organs(lung, Liver, spleen, intestines)

Solitary masses, diffuse lesions
Lesions can be “multibacillary” or “paucibacillary”- depends on the immune response

Question 59

Mycobacterium avium complex (MAC group)

Answer 59

Mycobacterium intracellulare
M. avium subsp. avium.- Avian tuberculosis

M. avium subsp. Sylvaticum- Non-tuberculous (atypical) mycobacteriosis
M. avium subsp.‘hominissuis’ (pigs and immunocompromised humans)

M. avium subsp. paratuberculosis -Johne’s disease in ruminants

Question 60

Generals about MAC

Answer 60

• Wide spread in soil and water, including treated municipal tap water

(low pH and high temperature tolerance i.e. hot tubs)
• Phenotypically indistinguishable members

VERY RESISTANCE!

Question 61

Mycobacterium avium subsp. paratuberculosis (Johne’s Disease)

Answer 61

• A chronic, progressive granulomatous enteritis

• Mycobacterium avium subsp paratuberculosis

• Primary Hosts-Ruminants (Cattle- mainly)
• Infects sheep, goat, llamas, alpacas, deer

• Annual economic loss of 220 million
• Excretion of organism through milk?
• Resistance to pasteurization temperature?

• Possible etiology in Crohn’s Disease

Question 62

Johne’s problems

Answer 62

Where there is a clinically affected, then there are many more in different stages of infection.

“Iceburg effect!

Question 63

Symptoms:

Answer 63

Diarrhea and weight loss,

can have bottle jaw due to loss of protein

Question 64

Pathogenesis of Johne’s Disease ?

Why weight loss and diarrhea?

Answer 64

ultimate effect- wt loss and diarrhea because they can’t absorb the nutrients

Question 65

Diagnosis of Johne’s disease

Answer 65

Direct fecal culture on Herrold’s egg yolk medium (Gold standard test)

Multistep decontamination process is needed- Lots of contamination

Mycobactin dependency is used for differentiation from other species- differentiation for subspecies paratuberculosis

Time consuming and labor intensive

16 weeks to complete the testing.

Automated Broth Based culture system combined with confirmation by PCR

Host response to infection (ELISA)

Question 66

Diagnosis of Johne’s

Answer 66

Individual surgical biopsy or necropsy of tissue from ileal-cecal region plus culture/ PCR

(most sensitive test to confirm clinical diagnosis in a herd with no prior confirmed cases)

PCR target-Insertion sequence (IS900)

Culture is the gold standard for dx Johne’s

Question 67

Control

Answer 67

Control and eradication programs strictly depend on:

1. Diagnosis and removal of infected animal
2. Management programs to reduce contamination and infection

Question 68

Who is the most susceptible to Johne’s disease?

Answer 68

Johne’s disease – young animals most susceptible to infection (incubation period is up to two years before symptoms appear)

contaminated maternity pen

BIGGER PROBLEM FOR DAIRY INDUSTRY- because they live longer

Question 69

Diagnosis other test

Answer 69

• Johne hypersensitivity skin test

• Interferon Gamma Release Assays (IGRA) or Lymphoblast Stimulation Assays

• Serology
ELISA-used for herd testing when there have been prior

confirmed cases or high infection prevalence in herd AGID, CF-used to confirm clinical disease diagnosis

• Nucleic acid detection: (IS 900) PCR on fixed tissues

DNA probes on liquid cultures/isolates

(not widely used, poor sensitivity in some species, eg. cervids)

Question 70

Johne’s ELISA

Answer 70

Widely used in cattle herds to detect infected animals

Detect humoral immune response to MAP

Low sensitivity in the early stage of diseases

False positives can occur (Specificity issues)

FALSE NEGATIVE in the advanced stages of disease due to a mechanism called anergy( no response)

Question 71

Treatment/Control of Johne’s disease

Answer 71

we don’t really treat for Johne’s disease

Antimicrobial treatment not recommended

Isolate/slaughter infected animals

(voluntary programs)

Test adult animals annually

Remove animals with clinical signs and high shedders

Cull low to moderate shedders as soon as possible (eg. end of lactation)

Cull calves from clinical cases as soon as possible

Vaccines used rarely in infected herds

Question 72

Control Management of Johne’s Disease

Answer 72

Avoid introduction through purchased animals (from test negative herds only)

Remove calves from dams immediately

Separate calf-rearingarea

Feed colostrum from test negative cows

Prevent contamination of calf feed, water, bedding by effluent from adult herd

Apply lime to contaminated pastures (more common in areas of low pH & low Ca++)

Reduce total farm exposure to organism (unlike TB, emphasis is on reduction not eradication)

Question 73

Why it is not remmended to vaccine for Johne’s disease?

Answer 73

because it interferes with M. bovis testing( you will get false positives)

granulomas on vet’s hands

Question 74

All gram postive bacteria have

Answer 74

thick peptioglycan

Lipolochonric acid

Question 75

Answer 75

Tuberculosis: Cavitary lesions

associated with lesions toward the end of the infection

Question 76

Answer 76

M. bovis

use Lowensetin Jensen medium (enriched, egg-based medium)

fatty acid enriched media required for growth of pathogenic species

Question 77

Answer 77

M. avium subspecies avium

or

Johne’s disease

Question 78

in a cow

Answer 78

Johne’s disease (thickened, ileal mucosa)

Chronic Granulomatous enterisitis

Question 79

In a pig

Answer 79

Lawsonia