AI Article Synopsis
- Human oviductal cells produce complement-3 (C3), which plays a key role in immune responses and has potential embryotrophic effects on mouse embryos.
- The study compared C3-deficient (C3KO) mice to wild-type (C3WT) mice to explore how a lack of C3 affects early pregnancy outcomes.
- Results showed that C3KO mice had longer estrous cycles, fewer conceptuses, higher resorption rates, and smaller fetal and placental weights, indicating that C3 deficiency can mildly impair early pregnancy and placental development.
Article Abstract
Human oviductal cells produce complement-3 (C3) and its derivative, iC3b. These molecules are important in immune responses. Our recent study suggested that iC3b also possessed embryotrophic activity and it stimulates the blastulation and hatching rates of in vitro cultured mouse embryos. The objective is to study the impact of C3 deficiency on early pregnancy in vivo using homozygous C3-deficient (C3KO) and wild-type (C3WT) mice. C3 protein was undetectable in the reproductive tissues of C3KO mice. Deficiency in C3 is associated with significantly longer estrous cycle (P = 0.037). No significant difference was found in the ovulation rate, total cell count in blastocysts and implantation rate between the wild-type and the C3KO mice, though C3KO mice tended to have lower values in the latter two parameters. On day 15 of pregnancy, C3KO mice had fewer conceptus (P < 0.001) and higher resorption rate (P < 0.001) than that of C3WT mice. The fetal and placental weights (P < 0.001) were lower in the C3KO mice. The placenta of C3KO mice had smaller spongiotrophoblast (P = 0.001) and labyrinth (P = 0.037). Deficiency in C3 is associated with mild impairment in early pregnancy including longer estrous cycle and higher resorption rates after implantation. The impairment may be related to compromised placental development leading to under-developed fetuses.
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| http://dx.doi.org/10.1002/mrd.21013 | DOI Listing |
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