Role of sex steroids and prostaglandins during the luteal life cycle in domestic cats and lynxes.

Although lynxes and domestic cats are both felids, their luteal life cycles differ. As in many species, corpora lutea (CLs) of domestic cats regress after pregnancy or pseudopregnancy. By contrast, CLs of lynxes do not functionally regress following the cycle of their formation. They stay physiologically active and persist for several years. To obtain an improved understanding of the life cycle of both species, we comparatively studied the CLs of these species in detail. In this review, we summarize the similarities and differences of their CLs regarding sex steroid and prostaglandin generation and receptors. The most evident differences were visible in the CLs of lynxes, which persist from previous cycles, compared with CLs of lynxes and domestic cats from the recent luteal cycle. We assume that these differences could indicate processes ensuring long-term luteal survival and functionality, for example, by high estrogen production/metabolism or by antioxidative effects.

Early preantral follicles of the domestic cat express gonadotropin and sex steroid signaling potential.

Key biomolecular processes, which regulate primordial ovarian follicle dormancy and early folliculogenesis in mammalian ovaries, are not fully understood. The domestic cat is a useful model to study ovarian folliculogenesis and is the most relevant for developing in vitro growth methods to be implemented in wild felid conservation breeding programs. Previously, RNA-sequencing of primordial (PrF), primary (PF), and secondary follicle (SF) samples from domestic cat implicated ovarian steroidogenesis and steroid reception during follicle development. Here, we aimed to identify which sex steroid biosynthesis and metabolism enzymes, gonadotropin receptors, and sex steroid receptors are present and may be potential regulators. Differential gene expression, functional annotation, and enrichment analyses were employed and protein localization was studied too. Gene transcripts for PGR, PGRMC1, AR (steroid receptors), CYP11A1, CYP17A1, HSD17B1 and HSD17B17 (steroidogenic enzymes), and STS (steroid metabolizing enzyme) were significantly differentially expressed (Q values of ≤0.05). Differential gene expression increased in all transcripts during follicle transitions apart from AR which decreased by the secondary stage. Immunohistochemistry localized FSHR and LHCGR to oocytes at each stage. PGRMC1 immunostaining was strongest in granulosa cells, whereas AR was strongest in oocytes throughout each stage. Protein signals for steroidogenic enzymes were only detectable in SFs. Products of these significantly differentially expressed genes may regulate domestic cat preantral folliculogenesis. In vitro growth could be optimized as all early follicles express gonadotropin and steroid receptors meaning hormone interaction and response may be possible. Protein expression analyses of early SFs supported its potential for producing sex steroids.

An air-liquid interphase approach for modeling the early embryo-maternal contact zone.

We developed an air-liquid interphase culture procedure for mammalian oviduct epithelial cells leading to the formation of functional epithelial tissues, which generate oviduct fluid surrogates. These in vitro oviduct epithelia can be co-cultured with living zygotes and enable embryonic development up to the blastocyst stage without addition of embryo culture medium. The described strategy is broadly applicable to analyze early embryo-maternal interactions under standardized in vitro conditions.

Analysis of gene expression in granulosa cells post-maturation to evaluate oocyte culture systems in the domestic cat.

Maturation of oocytes is a prerequisite for successful embryo development. The fertilization competence of in vivo derived oocytes is significantly higher than that of oocytes matured in vitro. Commonly evaluated morphological criteria for oocyte maturation do not reflect the complexity and quality of maturation processes. Oocytes and granulosa cells are communicating closely in a bidirectional way during follicular growth and maturation. Assessing the mRNA expression of specific genes in granulosa cells could be a non-invasive way to evaluate the conditions of in vitro oocyte maturation. The objective of this study was to elucidate the influence of two different FSH additives on the in vitro maturation rate and gene expression of cumulus-oocytes complexes in domestic cat. Feline oocytes were matured in a medium, supplemented with LH and 0.02 IU/ml porcine FSH versus 0.02 IU or 1.06 IU/ml human FSH. Granulosa cells were separated from oocytes directly after 24 hr of maturation or after additional 12 hr of in vitro fertilization. Gene expression levels were analysed by quantitative PCR for aromatase, antimullerian hormone, follicle stimulating hormone receptor (FSHR), luteinizing hormone/choriogonadotropin receptor (LHCGR) and prostaglandin E synthase. Neither oocyte maturation rate nor gene expression levels differed after 24 or 36 hr in all three groups. However, variations were discovered in correlations of expression levels, for instance for FSHR and LHCG, indicating differences in the fine-tuning of in vitro maturation processes under varying FSH supplementations. We suppose that correlation between gene expressions of selected genes suggests a superior maturation quality of feline oocytes.

Expression of steroidogenic enzymes and steroid receptors in foetal gonads of domestic cat-Sex similarities and differences.

Foetal gonads already produce steroid hormones and by this influence the further development of external and internal genitalia as well as of the brain. Beside this, foetal gonads themselves can be influenced by foetal or maternal hormones. The time course of foetal gonadal development can differ between species. As knowledge on processes in domestic cats is very limited, the steroidogenic enzyme expressions as well as these of steroid receptors were analysed in foetal gonads of domestic cats. We investigated a period from beginning of the second half of pregnancy to the beginning of the third trimester; a phase, where also gonadal development proceeds. The mRNA expression of most of the steroidogenic enzymes was remarkably higher in male gonads compared to female ones on all analysed days. The enzyme mRNA expression in female gonads shows a tendency for an increase towards the beginning of the third trimester, except that of aromatase gene CYP19A1-it shows the opposite trend. CYP19A1 was detectable just in female gonads, indicating that only female foetal gonads are capable of producing oestrogens. Gene expressions of genomically and non-genomically acting steroid receptors for progesterone, androgen and oestrogen reception were observed in gonads of both genders. Slightly higher expressions of some receptors were detected in female compared to male gonads; only for the non-genomically oestrogen receptor GPER, we observed the opposite. The protein staining for progesterone receptor membrane component 1 (PGRMC1) exposed a potential function of it on steroid-producing cell and/or cells that suppose early oogenesis.

Functional role of feline zona pellucida protein 4 trefoil domain: a sperm receptor or structural component of the domestic cat zona pellucida?

The trefoil domain (TFD) is a protein structure characterized by six cysteines, which form a typical three-loop structure by three disulphide bridges. It is assumed that two of these loops generate a hydrophobic groove, which could be a binding site for carbohydrate residues or proteins. The zona pellucida (ZP) protein, ZP4, contains such a TFD. The carbohydrate-/protein-binding property of TFD allows us to assume a potential sperm receptor function of this domain. Additionally, gastrointestinal trefoil peptides are stable against proteases; therefore, a structural role of TFD within the ZP might also be possible. We were able to show that the synthesized and natural folded feline TFD (fTFD) expresses the typical protease resistance that vanished under reducing conditions and after substitution of cysteine residues within the peptide. Furthermore, an antibody directed against the first loop of fTFD was almost unable to bind to intact in vitro mature cat oocytes. Pre-incubation of oocytes in the reducing agent (DDT), however, improved antibody binding substantially. Therefore, we suggest structural masking of the fTFD domain within the intact ZP. An interaction between fTFD and feline sperm cells was examined using several methods, including immunocytochemistry, immunoelectron microscopy, co-immunoprecipitation and far western blot, but we found no indication for an involvement of TFD in the primary sperm binding to the ZP. To summarize, there is increasing evidence that the TFD of fZP4 has a structural rather than a sperm-binding function.

The base of the proteasome regulatory particle exhibits chaperone-like activity.

Protein substrates of the proteasome must apparently be unfolded and translocated through a narrow channel to gain access to the proteolytic active sites of the enzyme. Protein folding in vivo is mediated by molecular chaperones. Here, to test for chaperone activity of the proteasome, we assay the reactivation of denatured citrate synthase. Both human and yeast proteasomes stimulate the recovery of the native structure of citrate synthase. We map this chaperone-like activity to the base of the regulatory particle of the proteasome, that is, to the ATPase-containing assembly located at the substrate-entry ports of the channel. Denatured but not native citrate synthase is bound by the base complex. Ubiquitination of citrate synthase is not required for its binding or refolding by the base complex of the proteasome. These data suggest a model in which ubiquitin-protein conjugates are initially tethered to the proteasome by specific recognition of their ubiquitin chains; this step is followed by a nonspecific interaction between the base and the target protein, which promotes substrate unfolding and translocation.