4.streptococcus

STREPTOCOCCISTREPTOCOCCI
Dr V S Vatkar
Asso Prof
Microbiology Department

DefinitionDefinition
•Gram position cocci
• in chains,
• non sporing,
• non motile,
• some capsulated,
•facultatively anaerobic and fastidious in
nutritional requirements.

IntroductionIntroduction
•Billroth (1874): in erysipelas & called in erysipelas & called
them streptococci them streptococci (streptos = twisted or (streptos = twisted or
coiled)coiled)..
•Ogston (1881) Isolated them from acute Isolated them from acute
abscesses , differs from staphylococci & abscesses , differs from staphylococci &
established their pathogenicity by animal established their pathogenicity by animal
inoculation.inoculation.
•Rosenbach (1884) Isolated the cocci from Isolated the cocci from
human suppurative lesions, named them human suppurative lesions, named them
Streptococcus pyogenesStreptococcus pyogenes..

Classification of Streptococci
Aerobes & Facultative anaerobes
Obligate anaerobes
Peptostreptococcus
Oxygen requirement
hemolysis
α hemolysis
Streptococcus viridans
Pneumococci
β hemolysis
β hemolytic streptococci
γ hemolysis
Enterococci
Lancefield grouping
On the basis of C Ag
A-V except I & J
Gr A Streptococci
GRIFFITH CLASSIFICATION
Based on M protein & emm gene

Based on Haemolysis on Blood Based on Haemolysis on Blood
AgarAgar
(i)β-haemolytic Streptococci (BHS) – complete
haemolysis of the red cells around the colonies,
producing clear zones around them.
e.g. group A, group B etc…
(ii)a-haemolytic Streptococci – partial haemolysis with
greenish discoloration of the areas surrounding the
colonies.
e.g.Streptococcus viridans, Streptococcus pneumoniae
(iii)Non-haemolytic Streptococci
e.g. Enterococcus faecalis

Lancefield GroupingLancefield Grouping
•Usually done on β-haemolytic streptococci
(BHS). Based on the presence of a
carbohydrate component of cell wall the C
carbohydrate. About 20 Lancefield groups
designated as A,B,C,D, (A-H) (K-U).
•Detected by reacting extract of carbohydrate C
antigen with specific antisera raised against it.

Alfa hemolysis
Beta hemolsis

M SerotypingM Serotyping
•Done on only group A streptococci and based
on the M protein found in Group A
Streptococci. 60 such serotypes; useful for
epidemiological studies.

Group A StreptococciGroup A Streptococci
(Lancefield Grouping)(Lancefield Grouping)
((Streptococci PyogenesStreptococci Pyogenes))
Morphology
•Spherical or oval
•In chains
•Nonmotile and nonsporing
•It may be capsulated and the capsule is
composed of hyaluronic acid.

CultureCulture
•Aerobes and facultative anaerobes
•22°C - 42°C
•Colony characters: virulent strains: mat finish
colonies, avirulent strains:glossy colonies,
capsulated colonies : mucoid

Growth & Clonial MorphologyGrowth & Clonial Morphology
•Blood agar best medium with optimum
temperature of 35-37°C & under aerobic
conditions.
•Colonies after 24 hours incubation: about 0.5 –
1mm in diameter & may/may not be
surrounded by haemolysis.
•They are catalase negative.

ΒΒ hemolysis on blood agar hemolysis on blood agar

Biochemical reactionsBiochemical reactions
•Ferment various sugars
•Produce acid but not gas
•Not soluble in 10% bile
•PYR

ResistanceResistance
•Delicate organism
•Can be stored in RCM at 4°C
•More resistance to crystal violet
•Sensitive to bacitracin

Antigenic structure – Antigenic structure –
Virulence factorsVirulence factors
•Cell wall antigens composed of 3 layers
•Inner thick peptidoglycan layer: rigidity to cell
wall, induces inflammatory response,
thrombolytic activity
•Middle layer: C or carbohydrate Ag
•Outer layer: lipoteichoic acid layer: composed
of M,T and R proteins
•M protein : principle virulence factor, inhibits
phagocytosis, inflammatory response
•Pilli

ToxinsToxins
Streptolysin O
•Oxygen labile
•Soluble in oxygen so
named as Sreptolysin O
•Seen in deep colonies
•Strongly Agenic
•ASO : raised in many
streptococcal infections
•Increases in RF &
decreases in GN and
pyoderma
Streptolysin S
•Oxygen stable
•Serum soluble so named
streptolysin S
•Hemolysis on surface of
blood agar
•Not Agenic
•Not useful for serological
diagnosis

Erythrogenic or pyrogenic exotoxinErythrogenic or pyrogenic exotoxin: :
streptococcal pyrogenic exotoxin streptococcal pyrogenic exotoxin (SPE)(SPE)
• Scarlet fever, necrotizing fasciitis & TSS
•3 Agenic subtypes: SPE A , B & C
•Subtype A & C : bacteriophage mediated , act
as super Ag ----- stimulation of T-cells ------
release of cytokines ----- fever, shock, tissue
damage
•SPE B: chromosomally mediated
•DICK test: I/D inj in susceptible children
produce local erythema. Initially uesd to detect
scarlet fever

EnzymesEnzymes
Streptokinase: Convert plasminogen to
plasmin which then lyses fibrin. Used to treat
thrombotic states. e.g. Coronary thrombosis ,
MI
Deoxyribonucleases
(Streptodornase):
4 main DNAases:A B C D
Antibodies produced against DNAase
(anti-DNAase B) is useful for diagnosing recent
Group A Streptococcal infections especially
skin infections.

•Di-phospho-pyridine-nucleotidase (DPN-ase)
 Hyaluronidase :Degrades hyaluronic acid
Spy CEP: serine protease
C5a peptidase

PathogenesisPathogenesis
•Causes suppurative infections and
non-suppurative complications (or
sequalae).

A.Suppurative (Pyogenic) Infections
a)Virulence Factors
(i)Principal virulence factors is the M protein
Originated from the cytoplasmic membrane.
Associated with pili.
It is antiphagocytic.
(ii)Lipotechoic Acid (LTA)
For attachment to epithelial surfaces.
(iii)Hyaluronic Acid
An antiphagocytic capsules.

pathogenesity

PathogenicityPathogenicity
Respiratory tract
 Acute tonsillitis
 Pharyngitis
 Scarlet fever
 Otitis media, Mastoiditis,

Quinsy, Ludwig's angina
Skin infections
 Wound infections, Burns, Cellulitis,
Erysipelas, Impetigo or Pyoderma : An infection
of the epidermis presenting as pustules. Seen
most often in infants and toddlers.

Strawberry tongue in scarlet fever
cellulitis erysipelas

SCARLET FEVERSCARLET FEVER
DWDDWDDesquamationDesquamation

Flesh Eating Bacteria Flesh Eating Bacteria
•Cellulitis- leading to Cellulitis- leading to
Necrotising FasciitisNecrotising Fasciitis
•Leads to necrosis of Leads to necrosis of
subcutaneous subcutaneous
issues and issues and
muscular tissues muscular tissues
and adjutant fasciaand adjutant fascia
•Other complications Other complications
Toxic shock Toxic shock
syndromesyndrome

INVASIVE GROUP A STREPTOCOCCI AND “FLESH-INVASIVE GROUP A STREPTOCOCCI AND “FLESH-
EATING” SYNDROME OR NECROTIZING FASCIITISEATING” SYNDROME OR NECROTIZING FASCIITIS
Caused by virulent strains Caused by virulent strains
of of Streptococcus Streptococcus
pyogenespyogenes

PathogenicityPathogenicity
•Genital infections Both aerobic & anaerobic are normal
inhabitants of female genitalia
•Deep infections Bone & joint infections
Lymphadenitis, Septicaemia
•Non suppurative complications:Ac. rheumatic
fever & Ac. Glomerulonephritis
These are antigen-antibody mediated disease and occur about 1-5
weeks after the primary suppurative infection. Tend to follow
either throat or skin infections or both. Streptococci are not
found in the affected organ.

NON SUPPURATIVE LESIONSNON SUPPURATIVE LESIONS
•Acute Rheumatic Acute Rheumatic
Fever Fever
•Acute Acute
glomerulonephritisglomerulonephritis
•Carditis.Carditis.
•Involvement of Involvement of
Connective tissues Connective tissues
of the heartof the heart

NON SUPPURATIVE LESIONSNON SUPPURATIVE LESIONS

a)a)Acute Rheumatic Fever:Acute Rheumatic Fever:
•Considered to be an autoimmune disease involving the
myocardium and its valves, connective tissues and the
big joints.
•Group A Strep cell wall has some antigenic similarity
with some of these human tissues. Follows after throat
infections only. Tends to recur. Many serotypes are
associated with acute rheumatic fever.

b)b)Acute Glomerulonephritis:Acute Glomerulonephritis:
•Due to antigen-antibody complexes deposited on the
basal membrane of glomeruli also can be due to
similarity between group A cell components and
glomerular tissue. May follow after either throat or skin.
Tends not to recur. Serotypes involved are few called
nephrotogenic strains.

Differences Between Glomerulonephritis &Differences Between Glomerulonephritis &
Rheumatic Fever Rheumatic Fever
1.Latent period between
infection and first attack.
1 – 5 weeks
(Average 18 days)
1 – 5 weeks
(Average 10 days)
2. Preceding infection

Throat only Throat or Skin
3.Pathogenesis Both Based On
Immunological Reaction
(Either Due to auto antibody
Or due to cross reactive
antigen).
Similarity between
organism antigens
& tissue antigens
Similarity between
a)Organism & tissue
antigens.
b)Deposition of
immunocomplexes
in glomeruli
Rheumatic Fever Glomerulonephritis

4. Second Attacks Common Rare if any
5. Prophylactic use of penicillin.Essential Usually NOT used.
6. Serotypes (M Types) Any of the 60
serotypes
Limited No. of
serotypes e.g.
type 12, 45 etc.
7. Serum whole complement &
C3
Increased
Decreased
Rheumatic FeverGlomerulonephritis
Differences Between Glomerulonephritis &Differences Between Glomerulonephritis &
Rheumatic Fever (Continued) Rheumatic Fever (Continued)

Epidemiology of Epidemiology of StreptococcalStreptococcal Infections Infections
1.Infection acquired through infected respiratory
droplets.
2.Sources of Infection
a) Those with active disease or convalescent carriers in
throat.
b) Asymptomatic carriers – the most common source. Up to
20% of school going children may carry Group A
streptococci in their throats.
3.Age Group:prevalent in children especially
between 3 – 8 years.

Lab. DiagnosisLab. Diagnosis
A] In acute infections : by culture

• Specimen : swab,pus,blood, CSF
•Collection & transport
•Culture

Lab. DiagnosisLab. Diagnosis
•Biochem.tests
. Catalase negative
. Sugar fermentation with production of
acid but not gas
. PYR hydrolysis
. Fluorescent antibody technique
. Bacitracin test

Lab. DiagnosisLab. Diagnosis
. Anti-deoxy-ribonuclease B (ADN-ase)
. Streptozyme test
. Lancefield grouping
Todd hewitt broth
Fullers method
Rantz & Randall’s method
Maxted, method
. Antigen detection test : by ELISA

ProphylaxisProphylaxis
Indicated only in prevention of Rh.fever
to prevent reinfection and damage to the
heart
Long term Penicillin is given to the child
who develops early stages of Rh.fever

TreatmentTreatment
•Drug of choice is Penicillin
•Erythromycin
•Cephalexin
•Tetracycline's & sulphonamides are not
recommended
•Chloramphenicol
•Marolides

THANK YOUTHANK YOU

Gram stain & col.on Blood agarGram stain & col.on Blood agar

Cell surface with secreted productsCell surface with secreted products

PathogenesisPathogenesis

Phagocytosis of str.pyogenes by a Phagocytosis of str.pyogenes by a
macrophagemacrophage

Dividing streptococci 12000 xDividing streptococci 12000 x

Negative staining of group A streptococci viewed by TEM Negative staining of group A streptococci viewed by TEM
28,000X. The "halo" around the chain of cells (approximately 28,000X. The "halo" around the chain of cells (approximately
equal in thickness to the cell diameter) is the remnants of the equal in thickness to the cell diameter) is the remnants of the
capsulecapsule

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