Hormonal and antimicrobial therapy in theriogenology practice: currently approved drugs in the USA and possible future directions

Hormonal and antimicrobial therapies are essential to regulate and maintain healthy reproduction in domestic animals. The appropriate and legal use of these compounds is ultimately the responsibility of the veterinarian and other users, with a primary mission to directly protect and promote the health of animals, and indirectly the health of people. The appropriate use of these products is defined by the Federal Food, Drug, and Cosmetic Act, 21 United States of America § 301 et seq and implementing regulations in the Code of Federal Regulations. In the past, use of a drug in an animal for an unapproved use violated this Act. However, passage of the Animal Medicinal Drug Use Clarification Act 1994 legalized the extra-label use of certain animal and human drugs in veterinary practice for treating diseases. This manuscript reviews currently approved hormonal and antimicrobial drugs for use in theriogenology. Considering the ever increasing knowledge in the area of veterinary reproduction, particularly in the treatment and control of reproduction using antimicrobials and hormones, it would be beneficial to widen the therapeutic options in these categories. The potential for widening the therapeutic options is also discussed in this review, by providing a non-exhaustive but essential list of potential new drugs for use in clinical animal reproduction (theriogenology).

Overexpression of the acid-labile subunit of the IGF ternary complex in transgenic mice

The ternary complex, composed of IGF-I or IGF-II, IGF-binding protein-3, and the acid-labile subunit, is responsible for transport of the majority of the IGF-I and IGF-II present in the circulation. Acid-labile subunit is developmentally and hormonally regulated, suggesting an important, although unclear, role in regulating the availability and action of the IGFs. To investigate the biological role of acid-labile subunit, we generated transgenic mice, which constitutively overexpress a human acid-labile subunit cDNA driven by the cytomegalovirus promoter. Two independent transgenic strains, CMVALS-1 and CMVALS-2, with mean serum levels of human acid-labile subunit of 19.3 +/- 4.2 and 20.2 +/- 3.2 microg/ml respectively, were characterized. Total acid-labile subunit, endogenous plus transgene derived, was measured by Western blotting and was found to be significantly increased in transgenic compared with wild-type mice (1.51 +/- 0.02-fold; P < 0.001). There were no significant differences in serum IGF-binding protein-3 or IGF-I levels between transgenic and wild-type mice. Similar chromatographic elution patterns were observed when sera from transgenic and wild-type mice were preincubated with [(125)I]IGF-I, indicating that acid-labile subunit overexpression had no measurable effect on compartmentalization of IGF-I in the circulation. Transgene-derived human acid-labile subunit mRNA was detected in 17-d-old embryos and all adult mouse tissues examined. A significant reduction in litter size was also observed in each of the acid-labile subunit transgenic mouse strains. This reduction in litter size was due to a maternal effect, as it was apparent when transgenic female mice were crossed with wild-type male mice, but not when male transgenic mice were crossed with female wild-type mice. The transgenic mice were phenotypically normal at birth, but demonstrated a significant reduction in postnatal body weight gain, particularly during the first 3 wk of life. Over the first 3 months of life, average body weights were significantly reduced by 5.3 +/- 0.6%, 4.2 +/- 0.6%, 8.1 +/- 0.9%, and 5.6 +/- 0.8%, compared with those in wild-type mice, for male and female CMVALS-1 mice and male and female CMVALS-2 mice, respectively. Double transgenic mice, generated by crossing acid-labile subunit transgenic mice with transgenic mice that overexpress IGF-binding protein-3, demonstrated a significantly more marked reduction in body weight gain than acid-labile subunit transgenic mice. These data demonstrate that overexpression of acid-labile subunit has significant effects on postnatal growth and reproduction. As there is little measurable alteration in the circulating components of the IGF system, these effects are most likely to be mediated via disturbances in tissue IGF availability.

Phenotypic manifestations of insulin-like growth factor-binding protein-3 overexpression in transgenic mice

In cell culture systems insulin-like growth factor (IGF)-binding protein-3 (IGFBP-3) can both enhance and inhibit IGF-I action. To investigate the biological role of IGFBP-3 in vivo, transgenic (Tg) mice that constitutively overexpress the human IGFBP-3 complementary DNA (cDNA) driven by the mouse phosphoglycerate kinase I (PGK) and the cytomegalovirus (CMV) promoters were examined. Serum levels of human IGFBP-3 in CMVBP-3 and PGKBP-3 Tg mice were 4.7 and 5.8 microgram/ml, respectively and total IGFBP-3 was increased 4.9- and 7.7-fold compared with that in wild-type (Wt) mice. In PGKBP-3 Tg mice the levels of transgene expression were similar in all tissues. Although CMVBP-3 mice demonstrated similar levels of expression of the transgene as PGKBP-3 mice in most tissues, markedly elevated expression was apparent in the kidney and heart. The transgene-derived IGFBP-3 circulated as a 150-kDa ternary complex, and serum IGF-I levels were elevated 1.9- to 2.8-fold in Tg mice compared with Wt mice. A significant reduction in birth weight of approximately 10% and a modest reduction in litter size were apparent in both Tg strains. Early postnatal growth, as assessed by both body weight and length, was significantly reduced in Tg mice compared with Wt mice. This was more marked in PGKBP-3 than in CMVBP-3 mice, who demonstrated a propensity to adiposity after weaning. The relative organ weights of brain and kidney were reduced in both Tg strains, whereas liver size and epididymal fat were significantly increased in CMVBP-3, but not PGKBP-3, mice. Our data indicate that overexpression of IGFBP-3 is associated with modest intrauterine and postnatal growth retardation despite elevated circulating IGF-I levels.

Pregnancy-dependent expression of leukaemia inhibitory factor (LIF), LIF receptor-beta and interleukin-6 (IL-6) messenger ribonucleic acids in the porcine female reproductive tract

Leukaemia inhibitory factor (LIF) and interleukin-6 (IL-6) are candidate embryo-maternal signalling molecules which are present within the uterine luminal micro-environment. We examined the relative expression of the mRNAs encoding LIF and IL-6, as well as the LIF-binding subunit (LIFR-beta) of the LIF receptor and, as a potential downstream cytokine-responsive gene, beta(2)-microglobulin (beta(2)m), in porcine peri-implantation conceptuses, and in placenta and endometrium during early and mid-pregnancy. Peri-implantation spherical and filamentous conceptuses expressed LIFR-beta and beta(2)m mRNAs with no LIF mRNA present. Rapid development in days 11/12 spherical conceptuses to the filamentous stage was accompanied by transiently increased IL-6 gene expression. The corresponding endometrium, in contrast, expressed LIF in addition to these other mRNAs. LIFR-beta, IL-6 and beta(2)m, but not LIF mRNAs, were expressed in the Jag-1 cell line, an in vitro model for porcine day 14 trophoblast. The greatest steady-state amounts of LIF, LIFR-beta and IL-6 mRNAs in both the endometrium and placenta were evident at the post-implantation stages (days 30 and 60>day 18 of pregnancy). Treatment of porcine endometrial explants with human recombinant (hr)LIF or hrIL-6 resulted in no change in, or diminished, the presence of endometrial beta(2)m mRNA, respectively. Addition of LIF to peri-implantation conceptus explant cultures, in contrast, induced beta(2)m mRNA synthesis. These results highlight the potential importance of both the endometrium and placenta as sources, as well as targets, of these cytokines throughout pregnancy. Cytokine modulation of beta(2)m, a known in vitro mitogen, may constitute one mechanism for local control of trophoblast and endometrial proliferation.

Impaired adipogenesis in insulin-like growth factor binding protein-1 transgenic mice

Differentiation of precursor cells into mature fat cells is accompanied by enhanced expression of insulin-like growth factor (IGF)-I and is stimulated by multiple hormones including growth hormone, glucocorticoids, IGF-I and insulin. We used transgenic mice that overexpress insulin-like growth factor binding protein-1 to investigate the role of IGF-I in the accumulation of fat tissue. In response to a sucrose-enriched diet, transgenic mice gained significantly less body weight and the epididymal fat mass was significantly reduced compared with wild-type mice. The increase in adipocyte size was also significantly reduced in transgenic mice compared with wild-type mice. Fewer colonies were generated from adipose tissue from transgenic mice and the mitogenic response of these cells to IGF-I was significantly reduced compared with those from wild-type mice. Induction of glycerol-3-phosphate dehydrogenase, a measure of adipocyte differentiation, by IGF-I but not insulin, was reduced in preadipocytes from transgenic mice. These data indicate that IGF-I has a critical role in the proliferation of adipocyte precursors, the differentiation of preadipocytes and the development of obesity in response to calorie excess.

Thyroid gland function and growth in IGF binding protein-1 transgenic mice

OBJECTIVE

IGF-I, IGF-I receptor and IGF-binding proteins (IGFBPs) are expressed in thyroid tissue and are associated with the function and growth of the thyroid. This study investigated the in vivo and in vitro effects of increased IGFBP-1 levels on the function and growth of the thyroid gland.

DESIGN

Transgenic mice which constitutively overexpress IGFBP-1 were used. These mice have a phenotype consistent with partial inhibition of IGF-I action.

METHODS

Thyroid growth, morphology and hormonogenesis were determined in transgenic mice treated with goitrogens, sodium perchlorate and methimazole. In vitro cell proliferation in thyroid follicles was assessed in response to IGF-I and TSH.

RESULTS

Thyroid weight was increased in transgenic mice, relative to their body mass, whereas serum tri-iodothyronine (T(3)), thyroxine and T(3)-binding capacity were reduced, compared with wild-type. While an inverse relationship between T(3) and TSH was observed in both groups of goitrogen-treated mice, the slope of the line of best fit was less steep in transgenic mice compared with wild-type mice. Thyroid growth was less marked in transgenic than wild-type mice in response to goitrogens, although TSH levels were higher in goitrogen-treated transgenics. In vitro proliferative response of isolated thyroid follicles to IGF-I, but not to TSH, was reduced in transgenic, compared with wild-type mice.

CONCLUSIONS

The results of this study suggest that, while overexpression of IGFBP-1 attenuates IGF-I action in vitro, it enhances thyroid growth in vivo, presumably as a result of perturbations in thyroid function at multiple levels.

Paracrine inducers of uterine endometrial spermidine/spermine N1-acetyltransferase gene expression during early pregnancy in the pig

The endogenous factors that underlie the transient induction of the gene encoding spermidine/spermine N1-acetyltransferase (SSAT), the rate-limiting enzyme in cellular polyamine catabolism, in pig uterine endometrium during periimplantation are not known. The present study examined a number of peptide growth factors and regulatory molecules that are present within the uterine environment at early pregnancy, coincident with maximal SSAT gene expression, for their ability to manifest endogenous SSAT gene-inducing activity. Basal SSAT expression in luminal epithelial cells was higher (p < 0. 01) than that for glandular epithelial (GE) or stromal (ST) cells. Recombinant human insulin-like growth factor-I (IGF-I; 50 ng/ml) had no effect on steady-state SSAT mRNA levels, but it increased mitogenesis in all three cell types. In contrast, IGF-I caused a marked induction (p < 0.01) of SSAT mRNA levels in the human endometrial carcinoma cell line Hec-1-A. Uterine explants incubated with interleukin-6, transforming growth factor alpha, epidermal growth factor (each at 1, 10, and 100 ng/ml), retinoic acid and retinol (each at 0.01, 0.1, and 1 microM), and estradiol-17beta (10 nM) had SSAT mRNA levels similar to controls. By contrast, leukemia inhibitory factor (LIF; at 10 and 100 ng/ml) caused a modest, but significant (p < 0.05), increase in SSAT mRNA levels over those of untreated explants. This effect of LIF, however, did not approach the level of induction observed in GE or ST cells after addition of medium conditioned by Day 12 or 17 porcine conceptuses and in endometrial explants supplemented with medium conditioned by Day 21 porcine conceptuses or a continuous cell line (Jag-1) derived from Day 14 porcine trophoblast. We suggest that transient induction of endometrial SSAT gene expression at implantation is mediated by the functional interactions of specific conceptus-derived regulatory factors, distinct from estrogen, with endometrial-derived factor(s) such as LIF. These complex interactions are probably requisite for the transient, yet dramatic, induction of SSAT gene expression and may be critical for successful implantation.

Transgenerational, ultrastructural analysis on the antioxidative effects of tocopherol on early gametogenesis in Caenorhabditis elegans grown in 100% oxygen

The random, free-radical-mediated oxidations of biological molecules result in membrane degradation leading to cellular deterioration (B. Halliwell, Free Radical Res. Commun. 9, 1-32, 1990). External oxygen, prooxidants, and internally produced oxygen free radicals (oxyradicals), interact and alter the nature of biomembranes. Antioxidants, e.g., tocopherol (Vitamin E), inhibit such oxidative damage of free radicals. In the present study, the nematode Caenorhabditis elegans was grown under hyperoxia (100% oxygen) with or without the addition of Vitamin E to the growth media. The nematodes were viable under such conditions for at least eight generations, although fecundity gradually decreased through successive generations, presumably due to genetic load. Vitamin E was also shown to have a protective effect against paraquat, which is a strong, intracellular, oxidizing agent. Ultrastructural observations of early meiosis showed that the formation of synaptonemal complexes was compromised and that the telomeres failed to attach to the nuclear envelope. Those nematodes grown in 100% oxygen with 200 micrograms/ml Vitamin E had normal meiotic structures and normal fecundity. Thus, the presence of enhanced levels of intracellular Vitamin E resulted in protection against oxidative stress during gametogenesis.