M. Heistermann

Bio: M. Heistermann is an academic researcher. The author has contributed to research in topics: Corpus luteum & Luteal phase. The author has an hindex of 2, co-authored 2 publications receiving 132 citations.

Concentrations of progesterone and the 5 alpha-reduced progestins, 5 alpha-pregnane-3,20-dione and 3 alpha-hydroxy-5 alpha-pregnan-20-one, in luteal tissue and circulating blood and their relationship to luteal function in the African elephant, Loxodonta africana.

Abstract: The 5 alpha-reduced metabolites 5 alpha-pregnane-3,20-dione (5 alpha-DHP) and 3 alpha-hydroxy-5 alpha-pregnan-20-one (5 alpha-P-3 alpha-OH) are the principal progestins biosynthesized by the African elephant corpus luteum. The aim of the present study was to determine luteal and circulating concentrations of these 5 alpha-reduced progestins in relation to progesterone (P4) and to examine whether their measurement reflects corpus luteum function. Ovarian (luteal) tissue (30 corpora lutea and 3 corpora rubra from 8 animals) and plasma samples (30 animals) were collected from pregnant and nonpregnant adult elephants shot in the Kruger National Park. Specific immunological measurement for both 5 alpha-reduced progestins and P4 was achieved by enzymeimmunoassay of tissue and plasma extracts following purification by HPLC. Mean (+/- SEM) luteal concentrations of 5 alpha-DHP and 5 alpha-P-3 alpha-OH were 79.5 +/- 9.4 micrograms/g and 196.5 +/- 24.8 micrograms/g, respectively, approximately 2-3 orders of magnitude higher than those of P4 (mean +/- SEM, 0.16 +/- 0.01 microgram/g). Whereas 5 alpha-reduced progestin concentrations tended to be lower in corpora lutea from late pregnancy compared with earlier stages and were lowest in corpora rubra, P4 levels were similar in all tissues/stages examined. The 5 alpha-reduced progestins also predominated over P4 in plasma (mean 5 alpha-DHP:P4 and 5 alpha-P-3 alpha-OH:P4 ratios 20.3 and 13.4, respectively). Similar to results for luteal tissue, plasma concentrations of 5 alpha-reduced progestins, but not of P4, were lower in late pregnancy than in earlier gestation stages and in nonpregnant animals. Moreover, plasma levels of both 5 alpha-reduced metabolites were negatively correlated with gestation age, whereas those of P4 were not. Levels of 5 alpha-reduced metabolites (without chromatography) were also measured in weekly blood samples throughout two complete ovarian cycles in one captive female. Both measurements showed a cyclic profile (similar to that of P4) with a luteal-phase elevation of 10- to 15-fold. The results indicate that 5 alpha-reduced compounds are the predominant progestins contained within and secreted by the corpus luteum of the African elephant, both during the ovarian cycle and throughout pregnancy. They also provide preliminary evidence to suggest that measurements of 5 alpha-reduced metabolites may reflect corpus luteum function more closely than those of P4.

Progestin content and biosynthetic potential of the corpus luteum of the African elephant (Loxodonta africana)

Abstract: The aim of this study was to examine the progestin content and biosynthetic potential of the corpus luteum of the African elephant (Loxodonta africana). Luteal tissue was collected from nonpregnant and early, mid- and late pregnant elephants (n = 2 per group) shot in the Kruger National Park. Pieces of individual corpora lutea (2\p=n-\3per animal; 23 in total) were stored directly in ethanol before hormone analysis. Matching tissue pieces were incubated for 2 h with [3H]pregnenolone (2 \m=x\105 c.p.m.), after which tissue plus medium were also stored in ethanol. Progesterone and 17\g=a\-hydroxyprogesteroneimmunoreactivity in tissue extracts were determined by enzymeimmunoassay and radioimmunoassay, respectively, before and after reverse phase HPLC. Progesterone immunoreactivity predominated over that of 17\g=a\-hydroxyprogesteronein all corpora lutea examined but concentrations of both hormones were very low (73\p=n-\374ng g\m=-\1 and 3\p=n-\93 ng g\m=-\1,respectively after HPLC). There were no obvious differences in hormone concentrations in corpora lutea from animals at different reproductive stages. Progesterone and 17\g=a\-hydroxyprogesterone immunoreactivity assayed before HPLC was 10\p=n-\30times higher than that measured after chromatographic separation. HPLC consistently revealed two large immunoreactive peaks associated with relatively nonpolar compounds, which together accounted for most (at least 75%) of all progesterone immunoreactivity measured. Large amounts of radioactivity with the same retention times as these peaks were also detected after HPLC in samples incubated with [3H]pregnenolone. Analysis of conversion products from four corpus luteum incubations indicated that between 52% and 84% of [3H]pregnenolone had been converted; 19\p=n-\33%was accounted for by progesterone, and 12\p=n-\50%by the two substances represented by the unidentified peaks. Subsequent GCMS analysis identified the two immunoreactive peaks as 5\g=a\-pregnane-3\g=a\-ol-20-one and 5\g=a\-pregnane-3,20-dione (5\g=a\-dihydroprogesterone). These results indicate that the major progestins contained within and biosynthesized by corpora lutea of African elephants are 5\g=a\-reduced metabolites, and that progesterone and 17\g=a\-hydroxyprogesterone are quantitatively of minor importance.

A versatile enzyme immunoassay for the determination of progestogens in feces and serum

Abstract: The ability of zoos to monitor the reproductive status of their animals can vastly improve the effectiveness of husbandry/management practices, and noninvasive methods such as fecal steroid analysis are the easiest to apply in a zoo setting. Furthermore, enzyme immunoassay (EIA) is preferred to radioimmunoassay (RIA) as the method of quantifying hormones because EIAs do not involve the use, storage, and disposal of radioactive materials. However, progesterone is excreted in the feces as predominantly unconjugated metabolites (progestogens) and, until recently, antibodies able to cross-react with a variety of progestogens were used primarily in RIAs. An EIA using a broad-spectrum progestogen antibody is described and applied to serum and/or fecal samples from female African elephants, black rhinoceros, white rhinoceros, okapi, and hippopotami. The clear progestogen profiles generated in these species suggest that the described EIA would be as versatile as the RIA using the same antibody and could be a practical and economical alternative to RIAs for monitoring gonadal function via progestogen analysis in zoo species. Zoo Biol 20:227–236, 2001. © 2001 Wiley-Liss, Inc.

Reproductive endocrine monitoring of elephants: An essential tool for assisting captive management

Abstract: Considerable information now is available about the basic reproductive biology of elephants, especially females. However, as important as this knowledge is, it no longer is enough to simply compile it into a database. The potential exists for using endocrine monitoring techniques to solve real problems. This review summarizes our current knowledge of elephant endocrinology and offers suggestions on how to use the technology to maximize reproductive potential. The estrous cycle can be monitored through the analysis of serum progestogens, primarily 5α-reduced compounds, and consists of an 8- to 12-week luteal phase and a 4- to 6-week inter-luteal period. Proof of ovarian cyclicity currently is mandatory before Species Survival Plan breeding recommendations are approved. However, because many adult females are not cycling normally, the reproductive monitoring of all cows throughout their life span is now encouraged. Complete endocrine evaluations in conjunction with ultrasound examinations and behavioral assessments are needed to identify causes of reproductive failure and develop mitigating treatments. Progestogen analyses also are effective for monitoring pregnancy, but only if longitudinal samples are collected. Alternatively, pregnancy can be diagnosed in occasional samples using serum prolactin or possibly relaxin measurements after 20 weeks of gestation. Parturition can be predicted on the basis of the rapid decrease in progestogens that occurs about 2–5 days before birth. An updated model of ovarian dynamics during the estrous cycle suggests that two waves of follicular development occur 3 weeks apart during the non-luteal phase, possibly under the control of follicle-stimulating hormone. Each follicular wave culminates in a luteinizing hormone (LH) surge, with the second surge inducing ovulation and corpus luteum formation. The functional significance of the first, anovulatory LH surge is under investigation, but from a practical perspective it can be used to schedule breeding (by artificial insemination or natural mating) to coincide with the ovulatory LH surge. Less is known about the reproductive biology of bulls, aside from the fact that musth is associated with dramatic changes in androgen secretion. Studies are needed to determine whether poor libido and inadequate semen quality observed in some mature elephants are due to testicular steroidogenic dysfunction. When blood samples cannot be collected for routine hormone analysis, gonadal activity can be monitored non-invasively through the measurement of excreted steroid metabolites (males: androgens; females: estrogens, progestogens) in urine and feces. Lastly, suggestions for future research priorities are provided. Zoo Biol 19:347–367, 2000. © 2000 Wiley-Liss, Inc.

Pharmacokinetic and behavioral effects of allopregnanolone in healthy women

Abstract: Rationale The behavioral effects of allopregnanolone (3α-hydroxy-5α-pregnan-20-one) in women are not known.

Cholesterol transport and steroidogenesis by the corpus luteum.

Abstract: The synthesis of progesterone by the corpus luteum is essential for the establishment and maintenance of early pregnancy. Regulation of luteal steroidogenesis can be broken down into three major events; luteinization (i.e., conversion of an ovulatory follicle), luteal regression, and pregnancy induced luteal maintenance/rescue. While the factors that control these events and dictate the final steroid end products are widely varied among different species, the composition of the corpus luteum (luteinized thecal and granulosa cells) and the enzymes and proteins involved in the steroidogenic pathway are relatively similar among all species. The key factors involved in luteal steroidogenesis and several new exciting observations regarding regulation of luteal steroidogenic function are discussed in this review.