Contact activation system: Difference between revisions
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==Roles in disease== |
==Roles in disease== |
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Activation of the CAS is associated with [[hereditary angioedema]], a disorder characterised by episodes of swelling.<ref>{{cite journal |last1=De Maat |first1=S |last2=Hofman |first2=ZLM |last3=Maas |first3=C |title=Hereditary angioedema: the plasma contact system out of control. |journal=Journal of thrombosis and haemostasis : JTH |date=19 June 2018 |doi=10.1111/jth.14209 |pmid=29920929}}</ref> |
Activation of the CAS is associated with [[hereditary angioedema]], a disorder characterised by episodes of swelling.<ref>{{cite journal |last1=De Maat |first1=S |last2=Hofman |first2=ZLM |last3=Maas |first3=C |title=Hereditary angioedema: the plasma contact system out of control. |journal=Journal of thrombosis and haemostasis : JTH |date=19 June 2018 |doi=10.1111/jth.14209 |pmid=29920929}}</ref> |
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{{Coagulation}} |
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==References== |
==References== |
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[[Category:Blood coagulation]] |
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{{uncategorized|date=July 2018}} |
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[[Category:Inflammation]] |
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[[Category:protein]] |
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[[Category:Coagulation system]] |
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[[Category:Blood]] |
Revision as of 13:00, 31 July 2018
In the contact activation system or CAS, three proteins in the blood, factor XII (FXII), prekallikrein (PK) and high molecular weight kiningogen (HK), bind to a surface and cause blood coagulation and inflammation. FXII and PK are proteases and HK is a non-enzymatic co-factor. The CAS can activate the kinin–kallikrein system and blood coagulation through its ability to activate multiple downstream proteins. The CAS is initiated when FXII binds to a surface and reciprocal activation of FXII and PK occurs, forming FXIIa and PKa. FXIIa can initiate the coagulation cascade by cleaving and activating factor XI (FXI), which leads to formation of a blood clot. Additionally, the CAS can activate the kinin–kallikrein system when PKa cleaves HK to form cHK, releasing a peptide known as bradykinin (BK). BK and its derivatives bind to bradykinin receptors B1 and B2 to mediate inflammation.[1][2]
Surfaces and activation
Artificial negatively charged substances that activate FXII include L-homocysteine, heparan sulfates, chondroitin sulfates, dermatan sulfate, uric acid crystals, lipoproteins, ferritin and porphyrins. However, the physiological substances or surfaces that activate FXII are still under debate. These may include proteins, such as gC1q-R, aggregated proteins, amyloid, collagen, nucleic acids, and polyphosphates.[3][4][5] The ability of FXII to bind to negatively charged surfaces and activate coagulation forms the basis of the aPTT test, in which artificial materials act as a surface for contact activation. This test is used to measure the contact activation pathway (intrinsic pathway) and the common pathway of clotting.[6] FXII is a zymogen, which means that it requires processing to attain its catalytic protease activity. Upon binding to surfaces, FXII alters in its conformation, giving it low-level protease activity. This change in conformation also promotes its cleavage by PKa and cleavage by FXIIa itself. FXIIa can cleave PK producing PKa, producing a positive feed-back to activate both enzymes. HK binds to PK and is required to locate PK at the surface for activation by FXII.[7]
Physiological roles
Although the contact system can activate FXI and the subsequent clotting cascade, and it is routinely observed to activate coagulation in the presence of medical devices,[8] the actual role of the contact system in normal physiological coagulation remains contentious. This is primarily due to the fact that deficiencies in the contact system proteins FXII, PK and HK do not produce bleeding disorders.[9]
The contact activation system's physiological role in the kinin-kallikrein system is more clear. Here, after activation of PK to PKa by FXIIa, PKa cleaves HK. This produces cleaved HK (cHK), releasing a small peptide known as bradykinin. This peptide binds to bradykinin receptor B2 and its derivative, Des-Arg9-bradykinin binds to bradykinin receptor B1. Upon ligand binding, these receptors mediate inflammatory responses.[10]
Roles in disease
Activation of the CAS is associated with hereditary angioedema, a disorder characterised by episodes of swelling.[11]
References
- ^ Schmaier, AH (May 2014). "Physiologic activities of the contact activation system". Thrombosis research. 133 Suppl 1: S41-4. doi:10.1016/j.thromres.2014.03.018. PMID 24759141.
- ^ de Maat, S; Tersteeg, C; Herczenik, E; Maas, C (June 2014). "Tracking down contact activation - from coagulation in vitro to inflammation in vivo". International journal of laboratory hematology. 36 (3): 374–81. doi:10.1111/ijlh.12222. PMID 24750684.
- ^ Ghebrehiwet, B; Kaplan, AP; Joseph, K; Peerschke, EI (November 2016). "The complement and contact activation systems: partnership in pathogenesis beyond angioedema". Immunological reviews. 274 (1): 281–289. doi:10.1111/imr.12469. PMID 27782339.
- ^ Naudin, C; Burillo, E; Blankenberg, S; Butler, L; Renné, T (November 2017). "Factor XII Contact Activation". Seminars in thrombosis and hemostasis. 43 (8): 814–826. doi:10.1055/s-0036-1598003. PMID 28346966.
- ^ Schmaier, AH (January 2016). "The contact activation and kallikrein/kinin systems: pathophysiologic and physiologic activities". Journal of thrombosis and haemostasis : JTH. 14 (1): 28–39. doi:10.1111/jth.13194. PMID 26565070.
- ^ Naudin, C; Burillo, E; Blankenberg, S; Butler, L; Renné, T (November 2017). "Factor XII Contact Activation". Seminars in thrombosis and hemostasis. 43 (8): 814–826. doi:10.1055/s-0036-1598003. PMID 28346966.
- ^ de Maat, S; Tersteeg, C; Herczenik, E; Maas, C (June 2014). "Tracking down contact activation - from coagulation in vitro to inflammation in vivo". International journal of laboratory hematology. 36 (3): 374–81. doi:10.1111/ijlh.12222. PMID 24750684.
- ^ Jaffer, IH; Fredenburgh, JC; Hirsh, J; Weitz, JI (June 2015). "Medical device-induced thrombosis: what causes it and how can we prevent it?". Journal of thrombosis and haemostasis : JTH. 13 Suppl 1: S72-81. doi:10.1111/jth.12961. PMID 26149053.
- ^ de Maat, S; Tersteeg, C; Herczenik, E; Maas, C (June 2014). "Tracking down contact activation - from coagulation in vitro to inflammation in vivo". International journal of laboratory hematology. 36 (3): 374–81. doi:10.1111/ijlh.12222. PMID 24750684.
- ^ Schmaier, AH (January 2016). "The contact activation and kallikrein/kinin systems: pathophysiologic and physiologic activities". Journal of thrombosis and haemostasis : JTH. 14 (1): 28–39. doi:10.1111/jth.13194. PMID 26565070.
- ^ De Maat, S; Hofman, ZLM; Maas, C (19 June 2018). "Hereditary angioedema: the plasma contact system out of control". Journal of thrombosis and haemostasis : JTH. doi:10.1111/jth.14209. PMID 29920929.