The N-terminal EGF Module of Coagulation factor IX. Studies of Calcium Binding and Module Interactions.
(2002)- Abstract
- Coagulation factor IX (FIX) is a vitamin K-dependent serine protease zymogen that circulates in plasma. Defects in FIX cause the bleeding disorder hemophilia B. FIX contains a Gla module, two Epidermal Growth Factor (EGF) -like modules and a serine protease region. In this thesis, studies have been performed on the N-terminal EGF module, which binds one Ca2+. — The present results show that binding of Ca2+ to EGF1 of FIX was 10-fold stronger when the Gla module was added to EGF1 (KD = 160 µM), indicating that binding of Ca2+ is important for stabilizing the structure of FIX. The mutations Val46Glu and Gln50Glu caused only a marginal increase in the affinity of Ca2+. — The mab AW was carefully characterized, and its non-Ca2+-dependent... (More)
- Coagulation factor IX (FIX) is a vitamin K-dependent serine protease zymogen that circulates in plasma. Defects in FIX cause the bleeding disorder hemophilia B. FIX contains a Gla module, two Epidermal Growth Factor (EGF) -like modules and a serine protease region. In this thesis, studies have been performed on the N-terminal EGF module, which binds one Ca2+. — The present results show that binding of Ca2+ to EGF1 of FIX was 10-fold stronger when the Gla module was added to EGF1 (KD = 160 µM), indicating that binding of Ca2+ is important for stabilizing the structure of FIX. The mutations Val46Glu and Gln50Glu caused only a marginal increase in the affinity of Ca2+. — The mab AW was carefully characterized, and its non-Ca2+-dependent epitope was found to be in the C-terminal part of EGF1 of FIX. This mab has a 10-fold higher affinity for FIXa than for FIX, a difference that is maintained when residue 55 is mutated, indicating the existence of intramolecular communication between the serine protease region and EGF1. — The mab AW did not affect the amidolytic activity of FIXa, and it was used to study activation of FIX. The antibody had very little effect on activation induced by TF/FVIIa, whereas it almost completely blocked activation caused by FXIa, indicating that the C-terminal part of EGF1 (where the epitope recognized by the mab is located) can interact with FXIa, but not with TF/FVIIa. — The mab AW caused a marginal reduction in the kcat,app for activation of FX, both in the presence and absence of FVIIIa. This information was used in the production of a computer model of the FIXa-FVIIIa complex, in which it can be seen that EGF1 of FIXa does not interact directly with FVIIIa. The model also shows that the salt bridge proposed to link Glu78 and Arg94 is not important for maintenance of the structure of FIX, which is supported by normal behavior of FIX Arg94Asp in clotting assays. — Two patients with different mutations in EGF1 of FIX (Pro55Ser and Pro55Leu) that gave rise to mild hemophilia were studied. These patients exhibited 10–12% of FIX coagulant activity and 50% of FIX antigen levels compared to normal subjects. Binding of Ca2+ to the isolated mutated EGF modules was investigated, and only minor changes were found in the affinity for this ion. When FIX Pro55Leu was activated to FIXa, it was degraded soon after activation, with cleavage at Arg318 and a concomitant loss of amidolytic activity. These findings indicate the existence of intramolecular communication between EGF1 and the serine protease region. In contrast, wild-type FIX and the Pro55Ser variant showed no such degradation. In FX activation reactions, there was a small decrease in kcat,app for FIXa Pro55Ser, and this reduction was in the same range regardless of whether FVIIIa was included in the assay. These results support the above-mentioned computer model in which EGF1 of FIXa does not interact directly with FVIIIa in the activation of FX. (Less)
- Abstract (Swedish)
- Popular Abstract in Swedish
Faktor IX (FIX) är en molekyl som behövs för att blodet ska koagulera. Brist på FIX leder till blödarsjuka. För att öka den grundläggande förståelsen av hur FIX fungerar har vi gjort studier av en bit av FIX, som kallas för EGF1. EGF1 är en av två EGFmoduler som finns i FIX. De kallas EGFmoduler för att de liknar en annan molekyl, Epidermal Growth Factor. I denna avhandling har studier genomförts angående hur EGF1 i FIX binder kalcium, hur bindningen påverkas av mutationer och av närheten till omgivande moduler samt hur olika delar av FIX kan kommunicera med EGF1 (så kallad ”intramolekylär kommunikation”). För att FIX ska kunna fungera i koagulationen måste den aktiveras, antingen av faktor XI... (More) - Popular Abstract in Swedish
Faktor IX (FIX) är en molekyl som behövs för att blodet ska koagulera. Brist på FIX leder till blödarsjuka. För att öka den grundläggande förståelsen av hur FIX fungerar har vi gjort studier av en bit av FIX, som kallas för EGF1. EGF1 är en av två EGFmoduler som finns i FIX. De kallas EGFmoduler för att de liknar en annan molekyl, Epidermal Growth Factor. I denna avhandling har studier genomförts angående hur EGF1 i FIX binder kalcium, hur bindningen påverkas av mutationer och av närheten till omgivande moduler samt hur olika delar av FIX kan kommunicera med EGF1 (så kallad ”intramolekylär kommunikation”). För att FIX ska kunna fungera i koagulationen måste den aktiveras, antingen av faktor XI eller av faktor VII. Vi har studerat funktionen hos EGF1 i aktiveringen av FIX samt i aktiveringen av en annan koagulationsmolekyl, faktor X, och en modell av hur komplexet mellan FIX och faktor VIII (en hjälpmolekyl till FIX i aktiveringen av faktor X) ser ut har producerats. Resultaten visar att EGF1 är viktigt för bindningen av kalcium och därmed för bibehållandet av strukturen hos FIX, men EGF1 deltar inte i någon direkt interaktion med FVIII i aktiveringen av FX. (Less)
Please use this url to cite or link to this publication:
https://lup.lub.lu.se/record/465325
- author
- Persson, Kristina LU
- supervisor
- opponent
-
- Siegbahn, Agneta
- organization
- publishing date
- 2002
- type
- Thesis
- publication status
- published
- subject
- keywords
- coagulation FIX EGF module calcium binding interaction, Clinical chemistry, Klinisk kemi
- pages
- 110 pages
- publisher
- Kristina Persson, Dept of Clinical Chemistry, University hospital Malmö, 205 02 Malmö,
- defense location
- Jubileumsaulan, Malmö
- defense date
- 2003-01-16 10:15:00
- language
- English
- LU publication?
- yes
- additional info
- Article: I. Kristina E. M. Persson, Jan Astermark, Ingemar Björk and Johan Stenflo. 1998. Calcium binding to the first EGF-like module of human factor IX in a recombinant fragment containing residues 1-85. Mutations V46E and Q50E each manifest a negligible increase in calcium affinity. FEBS Lett. 421:100-104.II. Kristina E. M. Persson, Karin E. Knobe and Johan Stenflo. 2001. An anti-EGF monoclonal antibody that detects intramolecular communication in factor IX. Biochem. Biophys. Res. Commun. 286:1039-1044.III. Kristina E. M. Persson, Bruno O. Villoutreix, Ann-Marie Thämlitz, Karin E. Knobe and Johan Stenflo. 2002. The N-terminal EGF domain of coagulation factor IX: Probing its functions in the activation of factor IX and factor X with a monoclonal antibody. J. Biol. Chem. 277:35616-35624.IV. Karin E. Knobe*, Kristina E. M. Persson*, Elsy Sjörin, Bruno O. Villoutreix, Johan Stenflo and Rolf C. R. Ljung. (*These authors contributed equally to this work). Functional studies of the EGF-like domain mutations Pro55Ser and Pro55Leu, which cause mild hemophilia B. Manuscript.
- id
- 7ed241f3-c7de-4e32-ac37-7ce5da1e1338 (old id 465325)
- date added to LUP
- 2016-04-04 11:33:09
- date last changed
- 2018-11-21 21:05:36
@phdthesis{7ed241f3-c7de-4e32-ac37-7ce5da1e1338, abstract = {{Coagulation factor IX (FIX) is a vitamin K-dependent serine protease zymogen that circulates in plasma. Defects in FIX cause the bleeding disorder hemophilia B. FIX contains a Gla module, two Epidermal Growth Factor (EGF) -like modules and a serine protease region. In this thesis, studies have been performed on the N-terminal EGF module, which binds one Ca2+. — The present results show that binding of Ca2+ to EGF1 of FIX was 10-fold stronger when the Gla module was added to EGF1 (KD = 160 µM), indicating that binding of Ca2+ is important for stabilizing the structure of FIX. The mutations Val46Glu and Gln50Glu caused only a marginal increase in the affinity of Ca2+. — The mab AW was carefully characterized, and its non-Ca2+-dependent epitope was found to be in the C-terminal part of EGF1 of FIX. This mab has a 10-fold higher affinity for FIXa than for FIX, a difference that is maintained when residue 55 is mutated, indicating the existence of intramolecular communication between the serine protease region and EGF1. — The mab AW did not affect the amidolytic activity of FIXa, and it was used to study activation of FIX. The antibody had very little effect on activation induced by TF/FVIIa, whereas it almost completely blocked activation caused by FXIa, indicating that the C-terminal part of EGF1 (where the epitope recognized by the mab is located) can interact with FXIa, but not with TF/FVIIa. — The mab AW caused a marginal reduction in the kcat,app for activation of FX, both in the presence and absence of FVIIIa. This information was used in the production of a computer model of the FIXa-FVIIIa complex, in which it can be seen that EGF1 of FIXa does not interact directly with FVIIIa. The model also shows that the salt bridge proposed to link Glu78 and Arg94 is not important for maintenance of the structure of FIX, which is supported by normal behavior of FIX Arg94Asp in clotting assays. — Two patients with different mutations in EGF1 of FIX (Pro55Ser and Pro55Leu) that gave rise to mild hemophilia were studied. These patients exhibited 10–12% of FIX coagulant activity and 50% of FIX antigen levels compared to normal subjects. Binding of Ca2+ to the isolated mutated EGF modules was investigated, and only minor changes were found in the affinity for this ion. When FIX Pro55Leu was activated to FIXa, it was degraded soon after activation, with cleavage at Arg318 and a concomitant loss of amidolytic activity. These findings indicate the existence of intramolecular communication between EGF1 and the serine protease region. In contrast, wild-type FIX and the Pro55Ser variant showed no such degradation. In FX activation reactions, there was a small decrease in kcat,app for FIXa Pro55Ser, and this reduction was in the same range regardless of whether FVIIIa was included in the assay. These results support the above-mentioned computer model in which EGF1 of FIXa does not interact directly with FVIIIa in the activation of FX.}}, author = {{Persson, Kristina}}, keywords = {{coagulation FIX EGF module calcium binding interaction; Clinical chemistry; Klinisk kemi}}, language = {{eng}}, publisher = {{Kristina Persson, Dept of Clinical Chemistry, University hospital Malmö, 205 02 Malmö,}}, school = {{Lund University}}, title = {{The N-terminal EGF Module of Coagulation factor IX. Studies of Calcium Binding and Module Interactions.}}, url = {{https://lup.lub.lu.se/search/files/5800247/1692959.pdf}}, year = {{2002}}, }