A unique human chorionic gonadotropin antagonist suppresses ovarian hyperstimulation syndrome in rats.

Ovarian hyperstimulation syndrome (OHSS) is a complication of in vitro fertilization associated with physiological changes after hCG administration to induce final oocyte maturation. It presents as widespread increases in vascular permeability and, in rare cases, results in cycle cancellation, multi-organ dysfunction, and pregnancy termination. These physiological changes are due primarily to activation of the vascular endothelial growth factor (VEGF) system in response to exogenous human chorionic gonadotropin (hCG). An hCG antagonist (hCG-Ant) could attenuate these effects by competitively binding to the LH/CG receptor, thereby blocking LH activity in vivo. We expressed a form of hCG that lacks three of its four N-linked glycosylation sites and tested its efficacy as an antagonist. The hCG-Ant binds the LH receptor with an affinity similar to native hCG and inhibits cAMP response in vitro. In a rat model for ovarian stimulation, hCG-Ant dramatically reduces ovulation and steroid hormone production. In a well-established rat OHSS model, vascular permeability and vascular endothelial growth factor (VEGF) expression are dramatically reduced after hCG-Ant treatment. Finally, hCG-Ant does not appear to alter blastocyst development when given after hCG in mice. These studies demonstrate that removing specific glycosylation sites on native hCG can produce an hCG-Ant that is capable of binding without activating the LH receptor and blocking the actions of hCG. Thus hCG-Ant will be investigated as a potential therapy for OHSS.

Wound closure and metabolic parameter variability in a db/db mouse model for diabetic ulcers.

BACKGROUND: Diabetic foot ulcers are a major cause of nontraumatic lower extremity amputations. Wound-healing researchers commonly use db/db mice as a model for diabetes, while the excisional wound correlates well with chronic foot ulcers. Recent clinical trials identified a correlation between glycemic control and cardiovascular complications in diabetic patients. The purpose of this study was to determine if the severity of diabetes was related to poor wound healing and the broad wound closure variability observed in diabetic db/db mice. MATERIALS AND METHODS: Adult female C57BLKS/J, db+/-, and db/db mice were anesthetized followed by creation of a 1.5 x 1.5 cm full-thickness excisional wound. Wound closure was measured on postoperative days (PODs) 1, 5, 7, 10, 14, and 21. Weight, fasting blood glucose, and fasting insulin were also measured during the study. RESULTS: By POD 21 both wild-type and db+/- mice demonstrated complete wound closure. In db/db mice open wounds were still present at POD 21. There was a broad range of percent wound closure from 24 to 81% with a mean of 55%. Despite strong correlations between diabetic parameters, there was no significant correlation between wound closure rate and severity of diabetes. CONCLUSIONS: Diabetic db/db mice exhibit a significant impairment of healing in the excisional wound model. The variability of wound closure for individual mice did not correlate with severity of obesity, hyperglycemia, hyperinsulinemia, or insulin resistance. An extensive evaluation of basic diabetes parameters does not provide significant insight into the wound-healing process in the db/db mouse model.

Efficacy of native and hyperglycosylated follicle-stimulating hormone analogs for promoting fertility in female mice.

OBJECTIVE: To compare the efficacy of recombinant human FSH (rhFSH) with rhFSH with four additional O-linked carbohydrates (rhFSH-CTP), rhFSH with four additional N-linked carbohydrates (rhFSH-N4), and the current gold standard for rodent ovarian stimulation, pregnant mare serum gonadotropin (PMSG), on fertility parameters in mice. DESIGN: Animal study. SETTING: Academic research center. ANIMAL(S): Adult C57Bl/6J female mice. INTERVENTION(S): Ovarian stimulation with 5 IU of rhFSH, rhFSH-CTP, rhFSH-N4, or PMSG. Forty-six hours later, 5 IU of hCG was injected to promote ovulation and females were mated overnight. MAIN OUTCOME MEASURE(S): Eggs retrieved after ovulation, in vitro embryo development, delivery rate, and litter size. RESULT(S): The hyperglycosylated FSH analogs, rhFSH-CTP and rhFSH-N4, enhanced ovulation and embryo maturation significantly better than rhFSH. RhFSH-N4 produced more eggs (28.5 +/- 1.9 per mouse) and embryos (17.8 +/- 1.6) compared with rhFSH-CTP (18.3 +/- 1.2 and 9.0 +/- 1.0, respectively). Treatment with rhFSH, rhFSH-N4, and PMSG produced statistically equivalent delivery rates and litter sizes. The delivery rate was surprisingly lower with rhFSH-CTP (14%) compared with PMSG (33%). CONCLUSION(S): Compared with rhFSH, treatment with hyperglycosylated rhFSH-CTP and rhFSH-N4 led to superior rates of ovulated eggs and subsequent in vitro embryo development. RhFSH-N4 was equivalent to PMSG, while all of the fertility parameters studied were lower with rhFSH-CTP than with PMSG therapy.

Single-chain bifunctional vascular endothelial growth factor (VEGF)-follicle-stimulating hormone (FSH)-C-terminal peptide (CTP) is superior to the combination therapy of recombinant VEGF plus FSH-CTP in stimulating angiogenesis during ovarian folliculogenesis.

Infertility technologies often employ exogenous gonadotropin therapy to increase antral follicle production. In an effort to enhance ovarian response, several long-acting FSH therapies have been developed including an FSH-C-terminal peptide (CTP), where the FSH subunits are linked by the CTP moiety from human chorionic gonadotropin, which is responsible for the increased half-life of human chorionic gonadotropin. We found that administration of FSH-CTP for ovarian hyperstimulation in rats blunted ovarian follicle vascular development. In women, reduced ovarian vasculature has been associated with lower pregnancy rates. We were interested in determining whether vascular endothelial growth factor (VEGF) therapy could enhance ovarian angiogenesis in FSH-CTP-treated rats. Coadministration of systemic FSH-CTP plus recombinant VEGF was compared with treatment with a novel, single-chain bifunctional VEGF-FSH-CTP (VFC) analog. For VFC, the FSH portion targets the protein to the ovary and stimulates follicle growth, whereas VEGF enhances local vascular development. Both in vitro and in vivo studies confirm the dual FSH and VEGF action of the VFC protein. Evaluation of ovarian follicle development demonstrates that administration of combination therapy using VEGF and FSH-CTP failed to increase follicle vasculature above levels seen with FSH-CTP monotherapy. However, treatment with VFC significantly increased follicle vascular development while concurrently increasing the number of large antral follicles produced. In conclusion, we report the production and characterization of a long-acting, bifunctional VEGF-FSH-CTP protein that is superior to combination therapy for enhancing VEGF activity in the ovary and stimulating follicular angiogenesis in rats.

Effects of long-acting recombinant human follicle-stimulating hormone analogs containing N-linked glycosylation on murine folliculogenesis.

OBJECTIVE: To evaluate the efficacy of two novel long-acting rhFSH analogs, rhFSH-N2 and rhFSH-N4, in stimulating murine folliculogenesis. DESIGN: Experimental study. SETTING: Academic research environment. ANIMAL(S): Immature female mice. INTERVENTION(S): Recombinant hFSH-N2 and -N4 were administered via single IP injection to 3-week-old female mice (n = 10) who were killed 48 hours later for dissection and histologic examination of reproductive organs and serum inhibin A. Results were compared with other groups of mice who received either single or q 12 hour injections for 48 hours of commercial rhFSH, or a single injection of pregnant mare serum gonadotropin (PMSG). A subgroup of the mice receiving rhFSH-N4 was supplemented with daily injections of small doses of hCG to simulate LH add-back. MAIN OUTCOME MEASURE(S): Serum inhibin A levels, ovarian and uterine weights, and ovarian antral follicle counts. RESULTS(S): Recombinant human FSH-N2 and -N4 administration induced a statistically significant increase in ovarian weights, uterine weights, and inhibin A levels compared with single and twice-daily injection of rhFSH. PMSG induced the greatest increases in all three measured parameters. There was no statistical difference between rhFSH-N2 and rhFSH-N4 for any parameter analyzed. A single injection of rhFSH-N2 or -N4 induced a greater number of antral follicles than did either single or q 12 hour injections of rhFSH. The addition of small doses of hCG to rhFSH-N4 increased inhibin A levels and antral follicle number to reach statistical equivalence to PMSG treatment. CONCLUSION(S): Addition of a synthetic polypeptide containing two or four N-linked glycosylation sites to rhFSH increases in vivo bioactivity of the hormone compared to commercial rhFSH. After a single injection, both rhFSH-N2 and rhFSH-N4 effectively induced a greater follicular response in the mouse than did rhFSH.

Bromodomain containing 2 (Brd2) is expressed in distinct patterns during ovarian folliculogenesis independent of FSH or GDF9 action.

We previously observed high levels of Brd2 (also known as female sterile homeotic related gene-1, Fsrg1) expression in several hormonally responsive tissues, including the ovary. Here, we report distinct localization patterns of Brd2 transcripts throughout ovarian folliculogenesis in normal mice as well as in two strains of mice with aberrant folliculogenesis: mice with mutated growth differentiation factor 9 (Gdf9) and follicle stimulating hormone beta (Fshb) genes. The highest level of expression was seen in granulosa cells of growing follicles. Within the oocyte, three patterns of Brd2 RNA localization were observed: diffuse distribution in both the cytoplasm and nucleus, then intense nuclear expression, followed by an absence of Brd2 transcripts from the nucleus. The transition from intense nuclear localization to nuclear exclusion was found to correlate with oocyte maturation and meiotic competence, as determined by nuclear chromatin patterns. These same expression patterns were also seen in oocytes from Gdf9(-/-) and Fshb(-/-) mice. Thus, Brd2 expression appears to correlate with stages of oocyte maturation, independent of FSH or GDF9 action and the subsequent disruption in normal follicle development in these models. The distinct patterns of Brd2 localization within the adult ovary supports a role for Brd2 in mitotic and possibly meiotic cell cycle regulation.