Factor VII deficiency rescues the intrauterine lethality in mice associated with a tissue factor pathway inhibitor deficit
Joyce C.Y. Chan, … , Désiré Collen, Francis J. Castellino
Joyce C.Y. Chan, … , Désiré Collen, Francis J. Castellino
Published February 15, 1999
Citation Information: J Clin Invest. 1999;103(4):475-482. https://doi.org/10.1172/JCI5678.
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Article

Factor VII deficiency rescues the intrauterine lethality in mice associated with a tissue factor pathway inhibitor deficit

Abstract

Mice doubly heterozygous for a modified tissue factor pathway inhibitor (TFPI) allele (tfpiδ) lacking its Kunitz-type domain-1 (TFPI+/δ) and for a deficiency of the factor VII gene (FVII+/–) were mated to generate 309 postnatal and 205 embryonic day 17.5 (E17.5) offspring having all the predicted genotypic combinations. Progeny singly homozygous for the tfpiδ modification but with the wild-type fVII allele (FVII+/+/TFPIδ/δ), and mice singly homozygous for the fVII deficiency and possessing the wild-type tfpi allele (FVII–/–/TFPI+/+), displayed previously detailed phenotypes (i.e., a high percentage of early embryonic lethality at E9.5 or normal development with severe perinatal bleeding, respectively). Surprisingly, mice of the combined FVII–/–/TFPIδ/δ genotype were born at the expected mendelian frequency but suffered the fatal perinatal bleeding associated with the FVII–/– genotype. Mice carrying the FVII+/–/TFPIδ/δ genotype were also rescued from the lethality associated with the FVII+/+/TFPIδ/δ genotype but succumbed to perinatal consumptive coagulopathy. Thus, the rescue of TFPIδ/δ embryos, either by an accompanying homozygous or heterozygous FVII deficiency, suggests that diminishment of FVII activity precludes the need for TFPI-mediated inhibition of the FVIIa/tissue factor coagulation pathway during embryogenesis. Furthermore, the phenotypes of these combined deficiency states suggest that embryonic FVII is produced in mice as early as E9.5 and that any level of maternal FVII in early-stage embryos is insufficient to cause a coagulopathy in TFPIδ/δ mice.

Authors

Joyce C.Y. Chan, Peter Carmeliet, Lieve Moons, Elliot D. Rosen, Zhong-Fu Huang, George J. Broze Jr., Désiré Collen, Francis J. Castellino

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(a and b) An E9.5 FVII+/–/TFPIδ/δ embryo (a) surrounded by its yolk sac....
(a and b) An E9.5 FVII+/–/TFPIδ/δ embryo (a) surrounded by its yolk sac. The larger vitelline vessels are not readily apparent; the arrow points to a blood lake. An E9.5 normal-appearing FVII–/–/TFPIδ/δ embryo (b) surrounded by its yolk sac. The arrow points to a vitelline vessel in the normal-appearing yolk sac. (c–e) H&E staining of E9.5 yolk sacs. A FVII–/–/TFPIδ/δ yolk sac section (c) comparable in appearance to a wild-type yolk sac. A FVII+/+/TFPIδ/δ yolk sac (d) blood lake that contains red blood cells and further degeneration (e), with separated yolk sac endoderm (E) and mesoderm (M) layers resulting in a lack of red blood cells in the disrupted vasculature. H&E staining (f) of an E10.75 FVII+/+/TFPIδ/δ yolk sac showing further degeneration of endoderm and mesoderm contact and resulting anemia. (g–j) H&E staining (g) of an E10.75 FVII+/+/TFPIδ/δ yolk sac blood lake and antifibrin(ogen) staining of the parallel section (h), demonstrating fibrin deposition (gold) lining the interior of the blood lake. H&E staining of a vessel within the corresponding embryo (i) and corresponding antifibrin(ogen) staining of the adjacent section (j), demonstrating fibrin deposition lining the interior of the vessel.