Peer-reviewed veterinary case report
Canine platelet TMEM16F mutation causes bleeding disorder in Scott
By Brooks, M B et al.·Published in Journal of thrombosis and haemostasis : JTH·2015·Department of Population Medicine and Diagnostic Sciences, United States·View original on PubMed →
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Original publication title: A TMEM16F point mutation causes an absence of canine platelet TMEM16F and ineffective activation and death-induced phospholipid scrambling.
- Species:
- dog
Plain-English summary
A group of dogs with a rare bleeding disorder called Scott syndrome were found to have a genetic mutation that prevents their platelets from functioning properly. This mutation affects a protein called TMEM16F, which is crucial for platelets to respond to signals that would normally help them activate and clump together to stop bleeding. In these dogs, the TMEM16F protein was missing, leading to severe issues with blood clotting. Researchers believe that understanding this condition could help develop new treatments to improve platelet function and lifespan in affected dogs.
Abstract
BACKGROUND: TMEM16F is an ion channel and calcium-dependent lipid scramblase that mediates phosphatidylserine (PS) exposure on the plasma membrane. Two disparate disease phenotypes are associated with TMEM16F loss-of-function mutations: a rare bleeding disorder (Scott syndrome) and skeletal malformations due to aberrant bone mineralization in a TMEM16F knockout mouse. We therefore undertook comparative studies of TMEM16F expression in canine Scott syndrome (CSS), an autosomal recessive platelet defect. OBJECTIVES: To define anoctamin proteins and scramblase response of CSS platelets and to determine whether TMEM16F is the CSS disease gene. METHODS: CSS TMEM16F cDNA and gene were sequenced and mutation detection was performed in CSS pedigrees. Platelet fractions from CSS dogs were isolated for proteomic and immunologic characterization of TMEM16F. Annexin V was used as a flow cytometric marker of induced platelet PS externalization. RESULTS: A TMEM16F splice site mutation segregated with the CSS trait and TMEM16F protein was undetectable in CSS platelet membranes; however, a second anoctamin, TMEM16K, was found. Proteomic analyses revealed a network of 32 proteins that differentially cosegregated with platelet plasma membrane TMEM16F. CSS platelets had profoundly impaired scramblase response to pharmacologic and physiologic agents that increase intraplatelet calcium and conditions that induce apoptotic and necrotic cell death. CONCLUSIONS: CSS platelets represent a TMEM16F-null mutant model that demonstrates a central role for TMEM16F in mediating platelet PS externalization in response to activating and death signals. Platelet TMEM16F may prove a novel drug target for modulating platelet procoagulant activity and extending platelet life span.
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Search related cases →Original publication on PubMed: https://pubmed.ncbi.nlm.nih.gov/26414452/