Shigella
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Jan 24, 2015
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shigella
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Shigella
Muni Venkatesh.PMuni Venkatesh.P
Group 2Group 2
Muni Venkatesh.PMuni Venkatesh.P
Group 2Group 2
Coliform bacilli (enteric rods)
Nonmotile gram-negative facultative anaerobes
Four species
·Shigella sonnei (most common in industrial world)
·Shigella flexneri (most common in developing
countries)
·Shigella boydii
·Shigella dysenteriae
Non-lactose fermenting
Resistant to bile salts
General Characteristics of ShigellaGeneral Characteristics of Shigella
Nonmotile gram-negative facultative anaerobes
Four species
·Shigella sonnei (most common in industrial world)
·Shigella flexneri (most common in developing
countries)
·Shigella boydii
·Shigella dysenteriae
Non-lactose fermenting
Resistant to bile salts
General Characteristics of ShigellaGeneral Characteristics of Shigella
Shigellosis = Generic term for disease
Low infectious dose (10
2
-10
4
CFU)
Humans are only reservoir
Transmission by fecal-oral route
Incubation period = 1-3 days
Watery diarrhea with fever; changing to dysentery
Major cause of bacillary dysentery (severe 2
nd
stage)
in pediatric age group (1-10 yrs) via fecal-oral route
Outbreaks in daycare centers, nurseries, institutions
Estimated 15% of pediatric diarrhea in U.S.
Leading cause of infant diarrhea and mortality
(death) in developing countries
Epidemiology and Clinical Epidemiology and Clinical
Syndromes of ShigellaSyndromes of Shigella
Low infectious dose (10
2
-10
4
CFU)
Humans are only reservoir
Transmission by fecal-oral route
Incubation period = 1-3 days
Watery diarrhea with fever; changing to dysentery
Major cause of bacillary dysentery (severe 2
nd
stage)
in pediatric age group (1-10 yrs) via fecal-oral route
Outbreaks in daycare centers, nurseries, institutions
Estimated 15% of pediatric diarrhea in U.S.
Leading cause of infant diarrhea and mortality
(death) in developing countries
Epidemiology and Clinical Epidemiology and Clinical
Syndromes of ShigellaSyndromes of Shigella
DEFINITIONS
Enterotoxin = an exotoxin with enteric activity, i.e.,
affects the intestinal tract
Dysentery = inflammation of intestines (especially
the colon (colitis) of the large intestine) with
accompanying severe abdominal cramps,
tenesmus (straining to defecate), and frequent, low-
volume stools containing blood, mucus, and
fecal leukocytes (PMN’s)
Bacillary dysentery = dysentery caused by
bacterial infection with invasion of host cells/tissues
and/or production of exotoxins
Enterotoxin = an exotoxin with enteric activity, i.e.,
affects the intestinal tract
Dysentery = inflammation of intestines (especially
the colon (colitis) of the large intestine) with
accompanying severe abdominal cramps,
tenesmus (straining to defecate), and frequent, low-
volume stools containing blood, mucus, and
fecal leukocytes (PMN’s)
Bacillary dysentery = dysentery caused by
bacterial infection with invasion of host cells/tissues
and/or production of exotoxins
Epidemiology
of Shigella
Infection
of Shigella
Infection
Shigellosis
Two-stage disease:
Early stage:
·Watery diarrhea attributed to the enterotoxic
activity of Shiga toxin following ingestion and
noninvasive colonization, multiplication, and
production of enterotoxin in the small intestine
·Fever attributed to neurotoxic activity of toxin
Second stage:
·Adherence to and tissue invasion of large
intestine with typical symptoms of dysentery
·Cytotoxic activity of Shiga toxin increases
severity
Pathogenesis of ShigellaPathogenesis of Shigella
Two-stage disease:
Early stage:
·Watery diarrhea attributed to the enterotoxic
activity of Shiga toxin following ingestion and
noninvasive colonization, multiplication, and
production of enterotoxin in the small intestine
·Fever attributed to neurotoxic activity of toxin
Second stage:
·Adherence to and tissue invasion of large
intestine with typical symptoms of dysentery
·Cytotoxic activity of Shiga toxin increases
severity
Pathogenesis of ShigellaPathogenesis of Shigella
Pathogenesis and Virulence FactorsPathogenesis and Virulence Factors
Virulence attributable to:
Invasiveness
·Attachment (adherence) and internalization
with complex genetic control
·Large multi-gene virulence plasmid regulated by
multiple chromosomal genes
Exotoxin (Shiga toxin)
Intracellular survival & multiplication
Virulence attributable to:
Invasiveness
·Attachment (adherence) and internalization
with complex genetic control
·Large multi-gene virulence plasmid regulated by
multiple chromosomal genes
Exotoxin (Shiga toxin)
Intracellular survival & multiplication
Penetrate through mucosal surface of colon
(colonic mucosa) and invade and multiply in the
colonic epithelium but do not typically invade
beyond the epithelium into the lamina propria (thin
layer of fibrous connective tissue immediately beneath the
surface epithelium of mucous membranes)
Preferentially attach to and invade into M cells in
Peyer’s patches (lymphoid tissue, i.e., lymphatic system)
of small intestine
Invasiveness in Shigella-Associated Dysentery
Pathogenesis and Virulence FactorsPathogenesis and Virulence Factors
(colonic mucosa) and invade and multiply in the
colonic epithelium but do not typically invade
beyond the epithelium into the lamina propria (thin
layer of fibrous connective tissue immediately beneath the
surface epithelium of mucous membranes)
Preferentially attach to and invade into M cells in
Peyer’s patches (lymphoid tissue, i.e., lymphatic system)
of small intestine
Invasiveness in Shigella-Associated Dysentery
Pathogenesis and Virulence FactorsPathogenesis and Virulence Factors
M cells typically transport foreign antigens from
the intestine to underlying macrophages, but
Shigella can lyse the phagocytic vacuole
(phagosome) and replicate in the cytoplasm
·Note: This contrasts with Salmonella which
multiplies in the phagocytic vacuole
Actin filaments propel the bacteria through the
cytoplasm and into adjacent epithelial cells with
cell-to-cell passage, thereby effectively avoiding
antibody-mediated humoral immunity (similar
to Listeria monocytogenes)
Pathogenesis and Virulence FactorsPathogenesis and Virulence Factors
Invasiveness in Shigella-Associated Dysentery(cont.)
the intestine to underlying macrophages, but
Shigella can lyse the phagocytic vacuole
(phagosome) and replicate in the cytoplasm
·Note: This contrasts with Salmonella which
multiplies in the phagocytic vacuole
Actin filaments propel the bacteria through the
cytoplasm and into adjacent epithelial cells with
cell-to-cell passage, thereby effectively avoiding
antibody-mediated humoral immunity (similar
to Listeria monocytogenes)
Pathogenesis and Virulence FactorsPathogenesis and Virulence Factors
Invasiveness in Shigella-Associated Dysentery(cont.)
Methods That Circumvent Methods That Circumvent
Phagocytic KillingPhagocytic Killing
See Chpt. 19
, Shigella spp.
Shigella spp.
,
Phagocytic KillingPhagocytic Killing
See Chpt. 19
, Shigella spp.
Shigella spp.
,
Enterotoxic, neurotoxic and cytotoxic
Encoded by chromosomal genes
Two domain (A-5B) structure
Similar to the Shiga-like toxin of
enterohemorrhagic E. coli (EHEC)
·NOTE: except that Shiga-like toxin is encoded by
lysogenic bacteriophage
Pathogenesis and Virulence FactorsPathogenesis and Virulence Factors
Characteristics of Shiga Toxin
Encoded by chromosomal genes
Two domain (A-5B) structure
Similar to the Shiga-like toxin of
enterohemorrhagic E. coli (EHEC)
·NOTE: except that Shiga-like toxin is encoded by
lysogenic bacteriophage
Pathogenesis and Virulence FactorsPathogenesis and Virulence Factors
Characteristics of Shiga Toxin
Shiga Toxin Effects in Shigellosis
Enterotoxic Effect:
Adheres to small intestine receptors
Blocks absorption (uptake) of electrolytes,
glucose, and amino acids from the intestinal
lumen
·Note: This contrasts with the effects of cholera toxin
(Vibrio cholerae) and labile toxin (LT) of
enterotoxigenic E. coli (ETEC) which act by blocking
absorption of Na
+
, but also cause hypersecretion
of water and ions of Cl
-
, K
+
(low potassium =
hypokalemia), and HCO
3
-
(loss of bicarbonate
buffering capacity leads to metabolic acidosis) out of
the intestine and into the lumen
Pathogenesis and Virulence FactorsPathogenesis and Virulence Factors
Enterotoxic Effect:
Adheres to small intestine receptors
Blocks absorption (uptake) of electrolytes,
glucose, and amino acids from the intestinal
lumen
·Note: This contrasts with the effects of cholera toxin
(Vibrio cholerae) and labile toxin (LT) of
enterotoxigenic E. coli (ETEC) which act by blocking
absorption of Na
+
, but also cause hypersecretion
of water and ions of Cl
-
, K
+
(low potassium =
hypokalemia), and HCO
3
-
(loss of bicarbonate
buffering capacity leads to metabolic acidosis) out of
the intestine and into the lumen
Pathogenesis and Virulence FactorsPathogenesis and Virulence Factors
Cytotoxic Effect:
B subunit of Shiga toxin binds host cell glycolipid
A domain is internalized via receptor-mediated
endocytosis (coated pits)
Causes irreversible inactivation of the 60S
ribosomal subunit, thereby causing:
· Inhibition of protein synthesis
· Cell death
· Microvasculature damage to the intestine
· Hemorrhage (blood & fecal leukocytes in
stool)
Neurotoxic Effect: Fever, abdominal cramping are
considered signs of neurotoxicity
Shiga Toxin Effects in Shigellosis (cont.)
Pathogenesis and Virulence Factors Pathogenesis and Virulence Factors
B subunit of Shiga toxin binds host cell glycolipid
A domain is internalized via receptor-mediated
endocytosis (coated pits)
Causes irreversible inactivation of the 60S
ribosomal subunit, thereby causing:
· Inhibition of protein synthesis
· Cell death
· Microvasculature damage to the intestine
· Hemorrhage (blood & fecal leukocytes in
stool)
Neurotoxic Effect: Fever, abdominal cramping are
considered signs of neurotoxicity
Shiga Toxin Effects in Shigellosis (cont.)
Pathogenesis and Virulence Factors Pathogenesis and Virulence Factors
Heparin-binding epidermal growth
factor on heart & nerve surfaces
factor on heart & nerve surfaces
Lab diagnosticLab diagnostic
•Specimens: fecal leucocytes and rbc seen
microscopically
•Culture: material streaked on differential
selective media
•Serology: not used to dianose shigella
infection
Culture medium
•Specimens: fecal leucocytes and rbc seen
microscopically
•Culture: material streaked on differential
selective media
•Serology: not used to dianose shigella
infection
Culture medium
ImmunityImmunity
•Infection followed by antibody response
•Injection of kiled shigella stimulate the
production ofnantibodies in serum, but fails to
protect human body against infection
•Ig Aantibody in gut in important
•Serum antibody to somatic shigella antigens
are Ig M
•Infection followed by antibody response
•Injection of kiled shigella stimulate the
production ofnantibodies in serum, but fails to
protect human body against infection
•Ig Aantibody in gut in important
•Serum antibody to somatic shigella antigens
are Ig M
ControlControl
•Sanitary control of water, food and milk;
sewage disposal; and fly control
•Isolation of patient and disinfection of excreta
•Detection of sub clinical cases and carrier,
particularly food handlers; and;
•Antibiotic treatment of infected individuals
•Sanitary control of water, food and milk;
sewage disposal; and fly control
•Isolation of patient and disinfection of excreta
•Detection of sub clinical cases and carrier,
particularly food handlers; and;
•Antibiotic treatment of infected individuals
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