Treatment of a Hemophilia B Mouse Model with Platelet-Targeted Expression of Factor IX Padua

2021 ◽  
Author(s):  
Binbin Li ◽  
Zhihan Wu ◽  
Wenjue Xu ◽  
Wenwen Han ◽  
Jiayu Liu ◽  
...  
Keyword(s):  
Mouse Model ◽  
Factor Ix ◽  
Hemophilia B ◽  
Targeted Expression ◽  
Hemophilia B Mouse

scholarly journals Modulating immunogenicity of factor IX by fusion to an immunoglobulin Fc domain: a study using a hemophilia B mouse model

2017 ◽  
Vol 15 (4) ◽  
pp. 721-734 ◽  
Author(s):  
D. Levin ◽  
H. A. D. Lagassé ◽  
E. Burch ◽  
S. Strome ◽  
S. Tan ◽  
...  
Keyword(s):  
Mouse Model ◽  
Factor Ix ◽  
Hemophilia B ◽  
Hemophilia B Mouse

scholarly journals Factor IX ectopically expressed in platelets can be stored in α-granules and corrects the phenotype of hemophilia B mice

Blood ◽  
2010 ◽  
Vol 116 (8) ◽  
pp. 1235-1243 ◽  
Author(s):  
Guowei Zhang ◽  
Qizhen Shi ◽  
Scot A. Fahs ◽  
Erin L. Kuether ◽  
Christopher E. Walsh ◽  
...  
Keyword(s):  
Mouse Model ◽  
Transgenic Mice ◽  
Factor Ix ◽  
Hemophilia B ◽  
Therapy Strategy ◽  
Human Factor Ix ◽  
New Gene ◽  
Gene Therapy Strategy ◽  
B Mice ◽  
Hemophilia B Mouse

AbstractWe developed 2bF9 transgenic mice in a hemophilia B mouse model with the expression of human factor IX (FIX) under control of the platelet-specific integrin αIIb promoter, to determine whether ectopically expressing FIX in megakaryocytes can enable the storage of FIX in platelet α-granules and corrects the murine hemophilia B phenotype. FIX was detected in the platelets and plasma of 2bF9 transgenic mice by both antigen and activity assays. Approximately 90% of total FIX in blood was stored in platelets, most of which is releasable on activation of platelets. Immunostaining demonstrated that FIX was expressed in platelets and megakaryocytes and stored in α-granules. All 2bF9 transgenic mice survived tail clipping, suggesting that platelet-derived FIX normalizes hemostasis in the hemophilia B mouse model. This protection can be transferred by bone marrow transplantation or platelet transfusion. However, unlike our experience with platelet FVIII, the efficacy of platelet-derived FIX was limited in the presence of anti-FIX inhibitory antibodies. These results demonstrate that releasable FIX can be expressed and stored in platelet α-granules and that platelet-derived FIX can correct the bleeding phenotype in hemophilia B mice. Our studies suggest that targeting FIX expression to platelets could be a new gene therapy strategy for hemophilia B.

scholarly journals Permanent partial phenotypic correction and tolerance in a mouse model of hemophilia B by stem cell gene delivery of human factor IX

Gene Therapy ◽  
2005 ◽  
Vol 13 (2) ◽  
pp. 117-126 ◽  
Author(s):  
B W Bigger ◽  
E K Siapati ◽  
A Mistry ◽  
S N Waddington ◽  
M S Nivsarkar ◽  
...  
Keyword(s):  
Stem Cell ◽  
Gene Delivery ◽  
Mouse Model ◽  
Human Factor ◽  
Factor Ix ◽  
Hemophilia B ◽  
Human Factor Ix ◽  
Cell Gene ◽  
Stem Cell Gene

scholarly journals Prophylactic efficacy of BeneFIX vs Alprolix in hemophilia B mice

Blood ◽  
2016 ◽  
Vol 128 (2) ◽  
pp. 286-292 ◽  
Author(s):  
Brian Cooley ◽  
William Funkhouser ◽  
Dougald Monroe ◽  
Ashley Ezzell ◽  
David M. Mann ◽  
...  
Keyword(s):  
Mouse Model ◽  
Saphenous Vein ◽  
Hemophilia B ◽  
Prophylactic Efficacy ◽  
Key Points ◽  
B Mice ◽  
Circulating Levels ◽  
Hemophilia B Mouse

Key Points Because extravascular FIX is physiologically important, FIXs circulating levels do not independently predict hemostatic potential. A saphenous vein hemophilia B mouse model shows that 7 days postinfusion FIX-Fc and FIX provide equal hemostatic protection.

scholarly journals A factor IX-deficient mouse model for hemophilia B gene therapy

1997 ◽  
Vol 94 (21) ◽  
pp. 11563-11566 ◽  
Author(s):  
L. Wang ◽  
M. Zoppe ◽  
T. M. Hackeng ◽  
J. H. Griffin ◽  
K.-F. Lee ◽  
...  
Keyword(s):  
Gene Therapy ◽  
Mouse Model ◽  
Factor Ix ◽  
Hemophilia B ◽  
Deficient Mouse

Restoring Initial Thrombin Generation Does Not Normalize Cutaneous Wound Healing in Hemophilia B.

Blood ◽  
2006 ◽  
Vol 108 (11) ◽  
pp. 1030-1030
Author(s):  
Anna G. McDonald ◽  
Maureane Hoffman ◽  
Ulla Hedner ◽  
Harold R. Roberts ◽  
Dougald M. Monroe
Keyword(s):  
Wound Healing ◽  
Mouse Model ◽  
Thrombin Generation ◽  
Hemophilia B ◽  
Cutaneous Wound Healing ◽  
Wild Type ◽  
Cutaneous Wound ◽  
Time Points ◽  
B Mice ◽  
Hemophilia B Mouse

Abstract We recently described abnormal wound healing in a mouse model of hemophilia B (Hoffman et al, Blood 2006; DOI 10.1182/blood-2006-05-020495). Specifically: epithelial closure was delayed in hemophilia B mice; hemophilic animals, unlike wild type, developed subcutaneous hematomas; macrophage influx was delayed compared to wild-type mice; and, surprisingly, angiogenesis was enhanced in the hemophilia B mice. We hypothesized that restoring the initial hemostatic burst of thrombin generation following wounding by administration of a single dose of factor IX (FIX) replacement or factor VIIa (FVIIa) bypassing therapy would not only prevent bleeding, but correct the subsequent wound healing process. One dose of therapy was given thirty minutes prior to placement of a single three mm punch biopsy wound on the dorsal skin of each wild type, untreated hemophilia B, and treated hemophilia B mouse. The size of the wounds was measured daily until full epithelial closure. The time course of epithelial closure in treated hemophilia B was intermediate between wild type and untreated hemophilia B. FVIIa-treated hemophilia B began to heal earlier than FIX-treated. Skin from the wound site was collected at different days and examined histologically. Macrophage influx was earlier in treated hemophilia B mice compared to untreated hemophilia B, likely a due to the increased thrombin and fibrin acting as chemotactic agents. The macrophage influx in FVIIa-treated HB was significantly greater at certain time points than in FIX-treated mice, possibly reflecting some signaling effect of TF/FVIIa in addition to its effects on thrombin generation. With the earlier influx in macrophages, hemoglobin was degraded to storage iron at earlier time points. However, tissue iron continued to persist in treated hemophilia B mice similar to untreated hemophilia B, suggesting continued rebleeding. FIX treatment led to significantly more angiogenesis than FVIIa. The reasons for this difference remain to be determined. Untreated and some treated hemophilia B mice developed subcutaneous hematomas both before and after wound closure. The early hematomas are likely caused by a combination of the initial wounding trauma and vulnerability to bleeding related to the high level of vascularity within the granulation tissue. We propose the late hematomas are due to a cycle of bleeding, leading to more inflammation with production of more pro-angiogenic cytokines, leading to greater angiogenesis with its attendant risk of bleeding. In conclusion, restoring initial hemostatic thrombin generation did not normalize cutaneous wound healing in a hemophilia B mouse model. While the time frame of healing may not be the same in human and murine hemophiliacs, our findings suggest that this model could be helpful in rational determination of treatment schedules for replacement or bypassing therapy following injury or surgery.

Hemophilia B Mouse Lines Doubly Humanized for Human F9 and MHC Class II Genes Advance Specificity of Inhibitor Study

Blood ◽  
2011 ◽  
Vol 118 (21) ◽  
pp. 200-200
Author(s):  
Genlin Hu ◽  
Tong Gui ◽  
Junjiang Sun ◽  
Darrel W. Stafford ◽  
R. Jude Samulski ◽  
...  
Keyword(s):  
T Cells ◽  
Mhc Class Ii ◽  
Class Ii ◽  
Factor Ix ◽  
Hemophilia B ◽  
Single Amino Acid ◽  
Mhc Ii ◽  
B Mice ◽  
Hemophilia B Mouse ◽  
Mouse Lines

Abstract Abstract 200 The development of neutralizing alloantibodies (inhibitors) against factor IX (FIX) in humans with hemophilia B is a potentially devastating complication; clinical investigation and evidence-based intervention for FIX inhibitors is complicated by their rarity. Current hemophilia B mouse models are not ideal for investigating the potential immunogenicity of hemophilia B therapies due to differences in mouse and human MHC class II structure and FIX epitope recognition. This recognition depends on CD4+ T cells and their direct interaction with surface-expressed MHC class II molecules complexed with antigen. We have developed a series of mouse lines that do not express mouse FIX or mouse MHC II, but instead express human FIX genes and humanized MHC II. The potential immunogenicity of human FIX and specific hFIX epitopes for CD4+ T cell recognition have been characterized in each of these “double humanized” (2H) mouse lines. Our derivation of the 2H mouse lines, all having first been bred through a complete knockout of mouse MHCII (mMHC II−/−), resulted in four lines of human HLA-DRB1*1501 mice. These four lines include 1) mouse FIX−/− (complete deletion; Cross-reacting material negative (CRM-)); 2) human R29X (expresses human FIX gene with early nonsense mutation; CRM-); 3) human R333Q (expresses human factor IX defective circulating protein with missense mutation; CRM+), and 4) human WT FIX (WT2 expresses hemostatic human FIX; CRM+). All lines were first shown to have similar numbers of MHCII and CD4+ expressing T cells in peripheral blood based on flow cytometry when compared with conventional (mouse MHC H2b) hemophilia B mice. To determine whether (hu-) mice have the same incidence and degree of immune response to hFIX compared to conventional hemophilia B mice, we immunized subcutaneously with hFIX emulsified in CFA. Importantly, control mMHC II−/− mice did not develop anti-FIX antibodies. Both strains of CRM- 2H hu-mice developed inhibitors and anti-hFIX IgG antibodies with similar intensity. CD4+-enriched splenocytes proliferated in vitro in response to hFIX challenge and secreted high amount of Th1-derived IFN-γ and moderate Th2 (IL-4 and IL-10) cytokines. However, when compared to the inhibitor-prone strains, conventional (mouse MHC H2b) and hu-DRB1*1501 CRM+ mice (both R333Q and WT2) tolerated hFIX, had larger total Treg populations, increased TGF-β1 cytokine, and demonstrated regulatory apoptosis of CD4+ Teffector cells. Additional lymphocyte response studies mapped four peptides derived from FIX catalytic domain as responsible for anti-FIX antibodies in the CRM- lines. (CD4+ T cells from CRM+ animals (hu-R333Q or hu-WT2 mice) did not proliferate to these four or any other hFIX peptides). The peptides identified in 2H hu- mice differed from immunostimulatory peptides identified in reported epitope mapping studies using FIX−/− mice having mouse MHC H2b, H2d, and H2kbackgrounds. These differences may reflect the fundamental structural and epitope recognition differences between murine and human MHC class II complexes. Finally, we have examined systemic and muscle-directed AAV-mediated gene therapy expressing either WT hFIX or a hFIX with a single amino acid gain of function variant (FIX Padua, R338LFIX). We have confirmed that expression of this single amino acid change does not increase inhibitor risk, as modeled in this double humanized hemophilia B model. This observation appears consistent with the extreme rarity of clinical inhibitor development in patients having underlying FIX missense mutations. In summary, the series of double humanized hemophilia B mouse models have hFIX recognition profiles that make them important tools for preclinical evaluation of novel hemophilia B therapeutics and to advance understanding of FIX inhibitors. Disclosures: No relevant conflicts of interest to declare.

Markers of Hypercoagulability in Patients with Hemophilia B Given Repeated, Large Doses of Factor IX Concentrates during and after Surgery

1994 ◽  
Vol 71 (06) ◽  
pp. 737-740 ◽  
Author(s):  
E Santagostino ◽  
P M Mannucci ◽  
A Gringeri ◽  
G Tagariello ◽  
F Baudo ◽  
...  
Keyword(s):  
High Risk ◽  
Ex Vivo ◽  
Factor Ix ◽  
Hemophilia B ◽  
Coagulation System ◽  
Prolonged Treatment ◽  
Orthopedic Procedures ◽  
Factor X ◽  
Prothrombin Complex Concentrates ◽  
Increased Risk

SummaryPurer factor IX (FIX) concentrates have been produced for the treatment of hemophilia B in the attempt to reduce the risk of thrombotic complications associated with the use of prothrombin complex concentrates. To evaluate ex vivo whether or not FIX concentrates activate the coagulation system in conditions associated with a high risk for thrombosis, we measured markers of hypercoagulability in 10 patients with hemophilia B who underwent surgery, mainly orthopedic procedures, covered by multiple concentrate infusions (40-80 U/kg/day). Postinfusion plasma levels of prothrombin fragment 1+2 and factor X activation peptide did not differ significantly from the presurgical levels, neither before nor after each concentrate dose. Therefore, it appears that prolonged treatment of patients with hemophilia B undergoing high risk surgical procedures with high doses of FIX concentrate does not cause systemic activation of coagulation. This suggests that purified FIX concentrates are preferable to prothrombin complex concentrates for conditions associated with an increased risk of thrombosis.

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