Journal of Reproduction and Development
4,149 registered articles
(updated on December 13, 2024)
Online ISSN : 1348-4400
Print ISSN : 0916-8818
ISSN-L : 0916-8818
JOURNAL PEER REVIEWED OPEN ACCESS ADVANCE PUBLICATION
DOAJ Scopus Pubmed
Featured article
Volume 70 (2024) Issue 6 Pages 411-417
Addition of granulocyte macrophage colony stimulating factor (GM-CSF) during in vitro oocyte maturation improves embryo development in a mouse model of advanced maternal age Read more
Editor's pick

Cover Story:
Study by Saini et al. investigated the effects of adding Granulocyte-macrophage colony-stimulating factor (GM-CSF) during in vitro maturation (IVM) on oocyte quality in a mouse model of advanced maternal age (Saini et al.: Addition of granulocyte macrophage colony stimulating factor (GM-CSF) during in vitro oocyte maturation improves embryo development in a mouse model of advanced maternal age. pp. 411–417). Oocytes from older female mice were treated with GM-CSF, and several developmental competence measures were assessed. The treatment tended to increase fertilisation rates (76.19 vs. 82.03; P = 0.07) while increasing blastocyst rates 51.10 vs. 61.52; P < 0.01), and the number of good quality of blastocysts (33.31 vs. 44.13; P < 0.05), along with increased inner cell mass and total cell number. GM-CSF also increased mitochondrial membrane potential. However, it did not affect spindle formation or chromosome alignment. These findings indicate that GM-CSF could improve oocyte quality in women of advanced maternal age by improving embryo development and mitochondrial function.

Volume 70 (2024) Issue 5 Pages 286-295
Autophagy in the corpus luteum correlates with tissue growth in pregnant rats Read more
Editor's pick

Cover Story:
The temporally regulated function and structure of the corpus luteum (CL) are critical for the establishment, maintenance, and termination of pregnancy across various animal species. Oishi et al. found that autophagic activity in the rat CL fluctuates in correlation with tissue weight rather than progesterone (P4) production (Oishi et al., Autophagy in the corpus luteum correlates with tissue growth in pregnant rats. pp. 286–295). Their perturbation experiment using a chemical inhibitor suggests that autophagy contributes to increasing the size of luteal steroidogenic cells and precisely modulates their P4 secretion. The dual nature of autophagy, which controls cellular survival or death, may be implicated in the reciprocal regulation of luteal P4 secretion to determine the appropriate gestational length in species whose P4 production depends solely on CL.

Volume 70 (2024) Issue 4 Pages 207-212
Molecular approaches to mammalian uterine receptivity for conceptus implantation Read more
Editor's pick

Cover Story:
Uterine receptivity is the specific state during early pregnancy when the endometrium is ready to accept the embryo or conceptus, and this process by which the embryo attaches to the endometrium is also known as implantation. Kubota summarized the molecular mechanisms underlying steroid hormone-induced uterine receptivity and the similarities and differences in this mechanism among different mammals (Kubota K. Molecular approaches to mammalian uterine receptivity for conceptus implantation, pp. 207–212). This review will help understand the importance of uterine receptivity and the challenges associated with alleviating implantation failure. Investigating the mechanism of uterine receptivity is necessary to develop diagnostic and therapeutic tools for successful pregnancies.

View all featured articles
View all articles in current issue
Most viewed articles (November 2024)
Share this page
Browse by volume and issue
feedback
Top