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{{WBRQuestion
{{WBRQuestion
|QuestionAuthor=William J Gibson
|QuestionAuthor=William J Gibson (Reviewed by  {{YD}})
|ExamType=USMLE Step 1
|ExamType=USMLE Step 1
|MainCategory=Microbiology
|MainCategory=Microbiology
|SubCategory=Musculoskeletal/Rheumatology, General Principles, Infectious Disease
|SubCategory=Musculoskeletal/Rheumatology, Infectious Disease
|MainCategory=Microbiology
|MainCategory=Microbiology
|SubCategory=Musculoskeletal/Rheumatology, General Principles, Infectious Disease
|SubCategory=Musculoskeletal/Rheumatology, Infectious Disease
|MainCategory=Microbiology
|MainCategory=Microbiology
|SubCategory=Musculoskeletal/Rheumatology, General Principles, Infectious Disease
|SubCategory=Musculoskeletal/Rheumatology, Infectious Disease
|MainCategory=Microbiology
|MainCategory=Microbiology
|MainCategory=Microbiology
|MainCategory=Microbiology
|SubCategory=Musculoskeletal/Rheumatology, General Principles, Infectious Disease
|MainCategory=Microbiology
|MainCategory=Microbiology
|SubCategory=Musculoskeletal/Rheumatology, General Principles, Infectious Disease
|SubCategory=Musculoskeletal/Rheumatology, Infectious Disease
|MainCategory=Microbiology
|MainCategory=Microbiology
|SubCategory=Musculoskeletal/Rheumatology, General Principles, Infectious Disease
|SubCategory=Musculoskeletal/Rheumatology, Infectious Disease
|MainCategory=Microbiology
|MainCategory=Microbiology
|SubCategory=Musculoskeletal/Rheumatology, General Principles, Infectious Disease
|SubCategory=Musculoskeletal/Rheumatology, Infectious Disease
|MainCategory=Microbiology
|MainCategory=Microbiology
|SubCategory=Musculoskeletal/Rheumatology, Infectious Disease
|MainCategory=Microbiology
|MainCategory=Microbiology
|SubCategory=Musculoskeletal/Rheumatology, General Principles, Infectious Disease
|MainCategory=Microbiology
|Prompt=A soldier suffers from an open leg wound after an explosion. He is treated upon returning to base, but he soon develops widespread purefaction of the wound site with bubbles arising in nearby muscle and subcutaneous tissue. What is the mechanism of the toxin in the causative organism?
|SubCategory=Musculoskeletal/Rheumatology, Infectious Disease
|Explanation=The patient in this vignette is suffering from gas gangrene, caused by Clostridium Perfringens. C. Perfringens is found in soil and the environment as spores, which can enter open wounds. The organism produces alpha toxin, a phospholipase which degrades cell membranes, thereby producing tissue destruction. Infections can progress rapidly, leading to myonecrosis and the formation of gas as tissue is destroyed.  Potentially lethal sepsis can ensue within hours without proper treatment.  The treatment for gas gangrene is wound debridement and often amputation of the affected area with adjuvant penicillin.
|Prompt=A 32-year-old male soldier suffers from an open leg wound following an explosion. He is immediately stabilized upon returning to the military base and is admitted for emergent surgery. Two days later, the patient develops high-grade fever with painful swelling and blisters at the wound site. CT scan of the involved leg is remarkable for gas formation in nearby muscles and subcutaneous tissue. What is the mechanism of action of the toxin responsible for this patient's complication?
 
|Explanation=The patient is most likely suffering from gas gangrene (clostridial myonecrosis), caused by ''[[Clostridium perfringens]]''. ''C. perfringens'' is found in soil and the environment as spores, which can enter open wounds. ''Clostridium perfringens'' causes gas gangrene and produces the hemolytic alpha toxin, a zinc-containing phospholipase C enzyme (lecithinase) that preferentially degrades phophatidylcholine and sphingomyelin. The toxin has 3 roles in the pathogenesis of gas gangrene:
Educational Objective:  Clostridium Perfringens produces gas gangrene and alpha toxin, a phospholipase which degrades tissues.
*Mistrafficking neutrophils to become unable to access infected site
*Reducing blood supply to infected tissue by vasoconstriction and platelet aggregation
*Activating arachidonic acid cascade and protein kinase C to modulate host cell metabolism


Tags: #Microbiology #Pathophysiology
Infections can progress very rapidly, resulting in the development of myonecrosis and the formation of gas as more tissue is progressively destroyed.  If left untreated, potentially lethal sepsis can ensue within few hours.  The treatment for gas gangrene is wound debridement, and often amputation of the affected area, with adjuvant penicillin therapy.
|AnswerA=Bring MHCII and TCR together to stimulate leukocytes.
|AnswerA=Combination of MHC class II and T-cell receptor (TCR) to stimulate leukocytes
|AnswerAExp=Incorrect - this is the mechanism of the Staph Aureus Toxic Shock Syndrome toxin and Strep Pyogenes Endotoxin A.
|AnswerAExp=This is the mechanism of the Toxic Shock Syndrome (TSS) toxin by ''S. aureus'' and endotoxin A of ''S. pyogenes''.  Because of their unique ability to stimulate leukocytes without co-stimulatory factors, these toxins are called "super antigens".
|AnswerB=Phospholipase
|AnswerB=Phospholipase
|AnswerBExp=Correct - See Explanation
|AnswerBExp=''Clostridium perfringens'' causes gas gangrene and produces the hemolytic alpha toxin, a zinc-containing phospholipase C enzyme (lecithinase) that preferentially degrades phophatidylcholine and sphingomyelin.
|AnswerC=Cleaves SNARE protein
|AnswerC=Cleavage of  SNARE protein
|AnswerCExp=Incorrect - This is the mechanism of Botulinum and Tetanus toxin, which disables neurotransmitter release at the synaptic cleft.
|AnswerCExp=Both botulinum and tetanus toxin cleave SNARE protein at synapses, thereby disabling neurotransmitter release at the synaptic cleft.
|AnswerD=Inactivate 60S ribsosome by cleaving rRNA
|AnswerD=Inactivation of 60S ribsosome by cleaving rRNA
|AnswerDExp=Incorrect - This is the mechanism of the toxin produced by Shigella and EHEC.
|AnswerDExp=The toxins produced by ''Shigella'' and EHEC inactivate the 60S ribosome by cleaving rRNA.
|AnswerE=Increases cAMP by intrinsic enzymatic activity.
|AnswerE=Increase of cAMP by intrinsic enzymatic activity
|AnswerEExp=Incorrect - This is the mechanism of the edema factor toxin produced by Bacillus Anthracis.
|AnswerEExp=Edema factor toxin produced by ''[[Bacillus anthracis]]'' mimics adenylate cyclase enzyme and increases cAMP by increasing enzymatic activity.
|EducationalObjectives=''Clostridium perfringens'' causes gas gangrene and produces the hemolytic alpha toxin, a zinc-containing phospholipase C enzyme (lecithinase) that preferentially degrades phophatidylcholine and sphingomyelin.
|References=Titball RW, Naylor CE, Basak AK. The Clostridium perfringens alpha-toxin. ''Anaerobe''. 1999;5(2):51-64.<br>
First Aid 2015 page 172.
|RightAnswer=B
|RightAnswer=B
|WBRKeyword=Bacteria, Toxin, Toxins, Gas gangrene, Clostridium perfringes, A
|Approved=Yes
|Approved=Yes
}}
}}

Latest revision as of 23:10, 27 October 2020

 
Author [[PageAuthor::William J Gibson (Reviewed by Yazan Daaboul, M.D.)]]
Exam Type ExamType::USMLE Step 1
Main Category MainCategory::Microbiology
Sub Category SubCategory::Musculoskeletal/Rheumatology, SubCategory::Infectious Disease
Prompt [[Prompt::A 32-year-old male soldier suffers from an open leg wound following an explosion. He is immediately stabilized upon returning to the military base and is admitted for emergent surgery. Two days later, the patient develops high-grade fever with painful swelling and blisters at the wound site. CT scan of the involved leg is remarkable for gas formation in nearby muscles and subcutaneous tissue. What is the mechanism of action of the toxin responsible for this patient's complication?]]
Answer A AnswerA::Combination of MHC class II and T-cell receptor (TCR) to stimulate leukocytes
Answer A Explanation [[AnswerAExp::This is the mechanism of the Toxic Shock Syndrome (TSS) toxin by S. aureus and endotoxin A of S. pyogenes. Because of their unique ability to stimulate leukocytes without co-stimulatory factors, these toxins are called "super antigens".]]
Answer B AnswerB::Phospholipase
Answer B Explanation AnswerBExp::''Clostridium perfringens'' causes gas gangrene and produces the hemolytic alpha toxin, a zinc-containing phospholipase C enzyme (lecithinase) that preferentially degrades phophatidylcholine and sphingomyelin.
Answer C AnswerC::Cleavage of SNARE protein
Answer C Explanation AnswerCExp::Both botulinum and tetanus toxin cleave SNARE protein at synapses, thereby disabling neurotransmitter release at the synaptic cleft.
Answer D AnswerD::Inactivation of 60S ribsosome by cleaving rRNA
Answer D Explanation AnswerDExp::The toxins produced by ''Shigella'' and EHEC inactivate the 60S ribosome by cleaving rRNA.
Answer E AnswerE::Increase of cAMP by intrinsic enzymatic activity
Answer E Explanation [[AnswerEExp::Edema factor toxin produced by Bacillus anthracis mimics adenylate cyclase enzyme and increases cAMP by increasing enzymatic activity.]]
Right Answer RightAnswer::B
Explanation [[Explanation::The patient is most likely suffering from gas gangrene (clostridial myonecrosis), caused by Clostridium perfringens. C. perfringens is found in soil and the environment as spores, which can enter open wounds. Clostridium perfringens causes gas gangrene and produces the hemolytic alpha toxin, a zinc-containing phospholipase C enzyme (lecithinase) that preferentially degrades phophatidylcholine and sphingomyelin. The toxin has 3 roles in the pathogenesis of gas gangrene:
  • Mistrafficking neutrophils to become unable to access infected site
  • Reducing blood supply to infected tissue by vasoconstriction and platelet aggregation
  • Activating arachidonic acid cascade and protein kinase C to modulate host cell metabolism

Infections can progress very rapidly, resulting in the development of myonecrosis and the formation of gas as more tissue is progressively destroyed. If left untreated, potentially lethal sepsis can ensue within few hours. The treatment for gas gangrene is wound debridement, and often amputation of the affected area, with adjuvant penicillin therapy.
Educational Objective: Clostridium perfringens causes gas gangrene and produces the hemolytic alpha toxin, a zinc-containing phospholipase C enzyme (lecithinase) that preferentially degrades phophatidylcholine and sphingomyelin.
References: Titball RW, Naylor CE, Basak AK. The Clostridium perfringens alpha-toxin. Anaerobe. 1999;5(2):51-64.
First Aid 2015 page 172.]]

Approved Approved::Yes
Keyword WBRKeyword::Bacteria, WBRKeyword::Toxin, WBRKeyword::Toxins, WBRKeyword::Gas gangrene, WBRKeyword::Clostridium perfringes, WBRKeyword::A
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