H.D. Guthrie

Osmotic Tolerance Limits and Effects of Cryoprotectants on Motility of Bovine Spermatozoa

Abstract This study was conducted to determine the osmotic properties of bull spermatozoa, including the effects of osmotic stress and cryoprotectant agent (CPA) addition and removal, on sperm motility. Semen from beef bulls was collected by electroejaculation and extended 1:3 in TL-Hepes containing 100 μg/ml pyruvate and 6 mg/ml BSA. In solutions of 150–1200 mOsmolal (mOsm), bull spermatozoa behaved as linear osmometers (r2 = 0.97) with an osmotically inactive cell volume of 61%. The isosmotic cell volume was 23.5 μm3. Motility was determined after exposure to anisosmotic solutions ranging from 35 to 2400 mOsm and after return to isosmotic conditions. Retention of at least 90% of isosmotic motility could be maintained only between 270–360 mOsm. Bull spermatozoa were calculated to retain 90% of their isosmotic motility at 92–103% of their isosmotic cell volume. Motility following a one-step addition and removal of 1 M glycerol, dimethyl sulfoxide, and ethylene glycol was reduced by 31%, 90%, and 6%, respectively, compared with CPA addition only. These data indicate that, during bull spermatozoa cryopreservation, osmotically driven cell volume excursions must be limited by exposure to a very narrow range that may be facilitated by the use of ethylene glycol as a CPA.

Changes in follicular estradiol-17β, progesterone and inhibin immunoactivity in healthy and atretic follicles during preovulatory maturation in the pig☆

Follicular hormones, growth and granulosa cell gonadotropin sensitive adenylate cyclase activity were determined in healthy and atretic follicles during preovulatory maturation in pigs. Ovaries were recovered at slaughter which was 1, 3, 5 or 7 d after the last administration of a progesterone agonist (altrenogest). Plasma FSH decreased (P < .05) by 64% between days 1 and 3 and remained low through day 5. The number of large (> 5 mm) follicles increased from 2.7 on day 1 to 14.8 on day 3 and did not differ significantly among days 3, 5 and 7. The number of small (1-2 mm) and medium (3-5 mm) follicles decreased (P < or = .05) by 82% between days 3 and 5. Follicles first became estrogen-active (EA) (> or = 100 ng of estradiol-17 beta/ml of follicular fluid) on day 3, with 14.3% of medium and 73.8% of large follicles being EA. About 30% of small and 13% of medium follicles were morphologically atretic on days 1 and 3. However, by day 5, the proportion of atretic small and medium follicles had increased (P < or = .05) to 100 and 59%, respectively. Follicular fluid inhibin immunoactivity and estradiol-17 beta were lower (P < or = .05) and progesterone was greater (P < or = .05) in atretic than healthy follicles. Granulosa cells from large follicles produced (P < or = .05) more cAMP than cells from healthy or atretic small/medium follicles. Compared to control or pFSH treatment, pLH increased cAMP production by granulosa cells from large follicles on all days and from small/medium follicles on days 1 and 5; pLH had no effect on granulosa cells from atretic follicles. Compared to control, pFSH increased cAMP production in granulosa cells from healthy small/medium follicles only on day 1; no effect was detected in granulosa cells from large or atretic follicles on any day. We conclude that decreased secretion of FSH increased loss and atresia among non-ovulatory follicles. Atretic follicles were marked by loss of granulosa cell gonadotropin-sensitive adenylate cyclase activity and by low concentrations of estradiol-17 beta.

Changes in plasma follicle-stimulating hormone, luteinizing hormone, estrogen and progesterone during growth of ovulatory follicles in the pig☆

This experiment was conducted to determine the changes in secretion of LH, FSH, estrogen and progesterone during follicle maturation. Ovaries were recovered from 11 non-treated (control) gilts, three on day 13, four on day 16, and four on day 19 of the estrous cycle, and from four altrenogest-treated gilts on day 19. Altrenogest, a progesterone agonist, was fed at a dose of 20 mg once daily from days 13 to 18 to block spontaneous follicle maturation. Gilts were bled daily from day 12 until slaughter. For control gilts, the number of follicles/gilt 1-6 mm in diameter decreased (P less than .05) from 93.5 on day 13 to 21.5 on day 19, and the number of large (greater than 6 mm) follicles increased (P less than .05) from 5.3 to 13.2. Altrenogest treatment blocked loss of small follicles and growth of large follicles between days 13 and 19. Plasma progesterone decreased (P less than .001) between days 12 and 16 in both control and altrenogest-treated gilts. Plasma FSH decreased (P less than .05) between days 12 and 16 only in control gilts. Plasma LH was not significantly affected by day or altrenogest treatment. Plasma estrogen increased (P less than .05) between days 15 and 19 only in control gilts. These results indicate that 1) no increased LH secretion was detected in conjunction with emergence of ovulatory follicles, and 2) atresia of nonovulatory follicles was associated with decreased secretion of FSH. Both atresia and decreasing FSH secretion began before estrogen concentration increased in the systemic circulation.

Production of prostaglandin F2α and estrogen by embryonal membranes and endometrium and metabolism of prostaglandin F2α by embryonal membranes, endometrium and lung from gilts

A 3 hr incubation of endometrium and embryonal membranes was used to assess potential contributions of these tissues to the prostaglandin F2α (PGF2α) and unconjugated estrogen (UE) present in the uteri of pregnant gilts. Metabolism of [3H]PGF2α was determined during a 6 hr incubation of endometrium, lung and embryonal membranes to assess the contribution of these tissues in conversion of PGF2α to less active forms during the estrous cycle and early pregnancy. Tissue was collected from 12 cyclic gilts on days 13, 16 or 19 and from 17 pregnant gilts on days 13, 16, 19 and 25 after the onset of estrus (day 0). Concentration of PGF2α (ng/g of tissue) in incubation medium after incubation of endometrium at 37 C was 4- to 6-fold greater (P<.001) on days 16 and 19 for cyclic gilts than for pregnant gilts. Concentration of PGF2α in medium after incubation of embryonal membranes recovered on days 13 and 16 was similar to that found after incubation of endometrium from cyclic gilts on days 16 and 19. Percentage of [3H]PGF2α converted by endometrium and lung tissue to other metabolites (61.8 and 79.5%, respectively) did not differ significantly among days of the cycle or pregnancy. The percentage of [3H]PGF2α metabolites recovered as [3H]13,14-dihydro-15-keto-PGF2α (PGFM) for endometrium (50.3%) and for lung (64.6%) was not affected significantly by pregnancy status. Embryonal membranes recovered on days 13 and 16 converted more (P<.05) [3H]PGF2α to other metabolites (%/μg of DNA) than embryonal membranes recovered on days 19 and 25, lung or endometrium. The % of [3H]PGF2α metabolites recovered as [3H]PGFM for embryonal membranes increased (P<.05) from 37.4 on day 13 to 68.6 on day 25. Concentration of UE (ng/g of tissue) in medium after incubation of embryonal membranes from day 13 was about 100-fold greater than for endometrium. Concentration of UE and estrone sulfate (E1SO4) (ng/g of tissue) in medium after incubation was greater (P<.05) for endometrium from pregnant gilts on day 25 than that for all days of the cycle or pregnancy. Concentration of UE in medium after incubation of endometrium or embryonal membranes was not significantly affected by incubation treatment, but more E1SO4 accumulated in the presence of indomethacin (P<.01). These results indicate that endometrium from pregnant gilts produces less PGF2α than that of cyclic gilts in vivo and this may contribute to the maintenance of corpora lutea. The high concentrations of PGF2α and estradiol in uteri of pregnant gilts may originate from embryonal membranes and be converted to biologically less active forms before leaving the uterus.

Effect of bovine growth hormone gene expression, sex and age on plasma gonadotropins, estrone and testosterone in prepuberal pigs.

Chronic supraphysiological blood levels of growth hormone (GH) may retard sexual maturation in swine. Pigs used in this study included four founder transgenic pigs (two gilts and two boars) expressing a mouse transferrin (TF) promoter fused to a bovine (b) GH structural gene, 13 second- or third- generation transgenic pigs (seven gilts and six boars) expressing a mouse metallothionein (MT) promoter fused to a bGH structural gene and 16 control littermates (eight gilts and eight boars). Blood plasma levels of LH, FSH, estrone and testosterone were measured to determine whether expression of bGH genes altered secretion of hormones between 80 and 180 days of age. Presence of a bGH gene was detected by hybridization of DNA in dot blots of tail biopsies. Expression of a bGH gene was detected by radioimmunoassay of plasma bGH. In four TFbGH founder transgenic pigs bGH ranged from 164 to 1948 ng/ml; in one MTbGH transgenic boar of line 3104 bGH was 1211 ng/ml; and in 12 pigs of line 3706 bGH ranged from 25 to 190 ng/ml. Expression of bGH in transgenic pigs lowered (P = .0192) plasma LH with no significant differences between sexes, had no significant effect on plasma FSH and lowered plasma estrone (P = .0001) and testosterone (P = .0269) in boars (but not gilts). Plasma estrone and testosterone were higher (P = .0001) in boars than in gilts. Plasma FSH was higher (P = .0001) in gilts than boars and decreased (P = .0001) with advancing age in gilts but not in boars.(ABSTRACT TRUNCATED AT 250 WORDS)

Changes in the concentration of MRNAS for the inhibin subunits in ovarian follicles after administration of gonadotropins to progestin treated ewes

RNA was extracted from single or small groups of ovine ovarian follicles after treatment of ewes with FSH and/or LH. The content of mRNA for the alpha-inhibin and beta A-inhibin subunits was analyzed by hybridization with specific cDNA probes. All ewes were treated with progestin vaginal pessaries to suppress spontaneous preovulatory follicle maturation and ewes were given three intramuscular injections of gonadotropins at 8-hr intervals starting 24 hr prior to collection of ovaries. In experiment I, both Schering-FSH and NIDDK-oFSH-17 (oFSH) significantly increased alpha- and beta A-inhibin mRNA per ewe in 2-5 mm follicles and tended to increase alpha- and beta A-inhibin mRNA in large (greater than 5 mm) follicles. In experiment II, oFSH and NIDDK-oLH-25 (oLH) were administered in a 2X2 factorial arrangement. Separate administration of oFSH or oLH increased (P less than .05) the alpha-inhibin mRNA concentration in large follicles. alpha-inhibin mRNA concentration in 4-5 mm follicles was also increased by oFSH but was decreased by oLH. Concomitant treatment with oFSH and oLH did not change alpha-inhibin mRNA concentrations from those measured in oFSH treated ewes. In experiment II, beta A mRNA concentrations followed a pattern similar to that of alpha A mRNA, but the differences were not statistically significant. We conclude that, in the ewe, exogenous FSH increases the concentration of inhibin mRNA in the whole follicle. The ability of exogenous oLH to alter expression of the inhibin subunit genes may depend upon the stage of follicle maturation.