The present invention relates generally to a three-dimensional cell and tissue culture system for the female reproductive tract. In particular provided herein the system includes individual female reproductive cultures in a dynamic microfluidic setting or integrated using a microfluidic microphysiologic system. In some embodiments, the present invention provides ex-vivo female reproductive tract integration in a three dimensional (3D) microphysiologic system.

The present invention is directed to a mammalian-avian chimeric model system comprising a fertilized avian egg comprising a chorioallantoic membrane (CAM); and multiple types of mammalian cells dispersed in a hydrogel. Further provided is a method for preparing the system and a method of using the same.

A method for inducing immature oocytes includes introducing four genes consisting of FIGLA, NOBOX, LHX8 and TBPL2, or transcripts or expressed proteins thereof, into at least one type of cell selected from the group consisting of pluripotent stem cells, epiblast-like cells and primordial germ cells. A method for producing mature oocytes includes introducing four genes consisting of FIGLA, NOBOX, LHX8 and TBPL2, or transcripts or expressed proteins thereof, into at least one type of cell selected from the group consisting of pluripotent stem cells, epiblast-like cells and primordial germ cells, and co-culturing the cell obtained after the introduction and ovarian somatic cells.

Artificial ovaries comprising porous three-dimensional scaffolds are provided. Also provided are ink compositions and methods for printing the scaffolds. The artificial ovaries have spatial arrangements and cellular compositions that allow them to mimic native ovarian tissue. As such, they can be cultured or transplanted to support female endocrine function and/or the development of oocytes and/or eggs.

Methods of preparing ovarian tissue for primordial follicle growth are presented comprising the steps: providing an ovarian tissue sample comprising cortical tissue and stromal tissue; removing damaged tissue from the ovarian tissue sample where present; removing excess stromal tissue from the ovarian tissue sample where present; and then mechanically stretching the ovarian tissue sample along at least one dimension of the ovarian tissue sample, such that the size of the ovarian tissue sample along the at least one dimension is increased by at least 10%. Methods of growing viable oocyte in vitro, and methods of preparing individual ovarian follicles for growth are also presented.

A serum free cell culture media, wherein the media is adapted to be conditioned by culturing a first set of eukaryotic cells in the media, wherein the first set of eukaryotic cells use an expression vector to excrete levels of desired complex proteins into the media; wherein said desired complex proteins include human Growth Hormone (hGH), Growth Hormone-like growth factors, insulin-like growth factors, insulin, modified insulins, cytokines, mitogenic proteases and mixtures thereof; and wherein the media is adapted to grow a set of eukaryotic cells.

Provided is a method for culturing immature oocytes. The method can promote in vitro maturation of the immature oocytes, and specifically comprises using follicular cells and a culture medium for culturing same. The culture medium for culturing the follicular cells contains CNP or variants thereof or analogues thereof and an HDAC (histone deacetylase) inhibitor. Also provided are the in vitro maturation culture medium containing CNP or variants thereof or analogues thereof and the HDAC inhibitor, and related compositions thereof, and the use of the above medium, culture medium and compositions in the promotion of in vitro maturation of the immature oocytes.

The presently disclosed subject matter provides systems and methods for producing a three-dimensional model of a human cervix. A microdevice is provided for culturing human cervical cells. The microdevice can include an upper microchannel including live ectocervical epithelial cells. The microdevice can include a lower microchannel including a first parallel lane and a second parallel lane including stromal media. The first and the second parallel lanes can be lined with live vascular endothelial cells. The lower microchannel can include a third parallel lane including uterine fibroblasts and live smooth muscle cells embedded in hydrogel. The first, second, and third lanes of the lower microchannel can be separated by protrusion structures. The third parallel lane can be positioned in the lower microchannel in between the first and the second parallel lanes. The microdevice can further include a porous membrane positioned in between the upper microchannel and the lower microchannel.

The presently disclosed subject matter provides systems and methods for producing a three-dimensional model of a human cervix. A microdevice is provided for culturing human cervical cells. The microdevice can include an upper microchannel including live ectocervical epithelial cells. The microdevice can include a lower microchannel including a first parallel lane and a second parallel lane including stromal media. The first and the second parallel lanes can be lined with live vascular endothelial cells. The lower microchannel can include a third parallel lane including uterine fibroblasts and live smooth muscle cells embedded in hydrogel. The first, second, and third lanes of the lower microchannel can be separated by protrusion structures. The third parallel lane can be positioned in the lower microchannel in between the first and the second parallel lanes. The microdevice can further include a porous membrane positioned in between the upper microchannel and the lower microchannel.

Provided is a method for culturing immature oocytes. The method can promote in vitro maturation of the immature oocytes, and specifically comprises using follicular cells and a culture medium for culturing same. The culture medium for culturing the follicular cells contains CNP or variants thereof or analogues thereof and an HDAC (histone deacetylase) inhibitor. Also provided are the in vitro maturation culture medium containing CNP or variants thereof or analogues thereof and the HDAC inhibitor, and related compositions thereof, and the use of the above medium, culture medium and compositions in the promotion of in vitro maturation of the immature oocytes.