Interactions of sperm and the reproductive ducts of the male tammar wallaby, Macropus eugenii (Macropodidae: Marsupialia)

1994 ◽  
Vol 6 (4) ◽  
pp. 437 ◽  
Author(s):  
RC Jones ◽  
J Clulow
Keyword(s):  
Animal Model ◽  
Inorganic Ions ◽  
Tammar Wallaby ◽  
Duct System ◽  
Sperm Production ◽  
Structural Differentiation ◽  
Macropus Eugenii ◽  
Cauda Epididymidis ◽  
Good Animal Model

This review compares sperm production in the tammar wallaby and eutherian mammals, particularly the rat. The capacity of sperm to fertilize an ovum when they leave the testis and the changes they undergo in the epididymidis are considered. The structural differentiation and regulation of the extratesticular duct system is assessed and related to the reabsorption and secretion of water, inorganic ions and proteins, and the interaction of sperm and proteins synthesized and secreted by the epididymidis. Adaptations of the cauda epididymidis for storing spermatozoa are also considered. It is suggested that the tammar may be a good animal model to study the suppression of sperm motility and metabolism in the cauda epididymidis as it is possible to collect from them luminal samples of sperm which are initially immotile and then spontaneously activate during incubation in vitro.

Protein synthesis and secretion by the epididymis of the tammar wallaby, Macropus eugenii (Macropodidae: Marsupialia)

1992 ◽  
Vol 4 (5) ◽  
pp. 533 ◽  
Author(s):  
G Chaturapanich ◽  
RC Jones ◽  
J Clulow
Keyword(s):  
Protein Synthesis ◽  
Protein Secretion ◽  
Tammar Wallaby ◽  
Secreted Proteins ◽  
Blood Proteins ◽  
Macropus Eugenii ◽  
Cauda Epididymidis

The objectives were to assess the following in a marsupial: which proteins are synthesized by the different regions of the epididymis and secreted into the lumen of the ductus; the effect of the experimental method on the detection of protein secretion; the role of the testis in regulating the protein synthesis and secretion; and whether any of the secreted proteins may associate with spermatozoa. Samples from untreated animals were collected for examination by perfusing Krebs-bicarbonate through the ductus epididymidis in vivo (microperfusion), and after incorporation of [35S]methionine during incubation of minced duct in vitro. Electrophoresis of the samples showed that the caput and corpus epididymidis (initial segments) secreted most of the proteins that were synthesized and secreted by the epididymal mucosa, and that the cauda epididymidis secreted mainly blood proteins. Also, many more proteins were secreted in vitro than into the microperfusates in vivo, or were found by Jones (1987) in micropuncture samples of epididymal plasma. The synthesis and secretion of five proteins was androgen dependent (M(r) 75,700, 30,000, 18,700, 17,400 and 12,800). Also, the luminal fluids from the testis stimulated the secretion of two proteins (M(r) 46,300 and 36,100) and inhibited the secretion of three proteins (M(r) 43,000, 32,300 and 21,400). Examination of detergent extracts of spermatozoa indicated that they lose three proteins (M(r) 28,000, 30,000 and 47,000) and gain one (M(r) 30,400) during passage through the epididymis. The method of determining protein secretion affected the findings. Protein secretion, its control and its association with spermatozoa are broadly similar in the tammar wallaby to the processes described in eutherian mammals.

Biochemical studies of intrauterine components of the tammar wallaby Macropus eugenii during pregnancy

Development ◽  
1981 ◽  
Vol 62 (1) ◽  
pp. 325-338
Author(s):  
Elizabeth J. Thornber ◽  
Marilyn B. Renfree ◽  
Gregory I. Wallace
Keyword(s):  
Protein Concentration ◽  
Specific Binding ◽  
Polyacrylamide Gel Electrophoresis ◽  
Fold Increase ◽  
Tammar Wallaby ◽  
Macropus Eugenii ◽  
Tenfold Increase ◽  
Specific Proteins ◽  
Wet Weight

The in vitro uptake and incorporation of [3H]ui idine by blastocysts of the tammar wallaby showed a 16- and 30-fold increase from day 0 to day 10 after removal of pouch young, respectively. Two of the six non-expanded blastocysts recovered on day 5 showed a tenfold increase in incorporation. During the first ten days after removal of pouch young the diameter of the blastocyst increased threefold. Endometrial exudate from gravid uteri had a higher protein concentration than exudate from nongravid uteri (39·5 ± 0·9 and 32·0 ± 2·0 mg/ml (mean ± s.e.m.), respectively). Endometrial exudates from uteri where the blastocyst was actively growing were found to contain six uterine-specific proteins. These were separated by gradient polyacrylamide gel electrophoresis. Two of the proteins were pre-albumins and the others were larger molecules (M.W. 153000–670000). Two proteins were only present at particular stages of pregnancy: the other four were present at all stages from diapause to birth, in exudate from gravid and nongravid uteri. The specific binding of progesterone and androstenedione to proteins in endometrial exudates or uterine flushings from pregnant wallabies was less than one per cent of the value obtained from day-5 pregnant rabbits. The ability of mouse blastocysts to take up and incorporate [3H]uridine into acidinsoluble material increased threefold in the presence of day-10 endometrial exudates from wallabies. However, this was less than ten percent of the values obtained in the presence of bovine serum albumin. The concentration of calcium in endometrial exudates increased from 23·6 to 45·2 μg/ml during pregnancy; in endometrium it remained at 88·7 μg/g (wet weight) throughout pregnancy, and in plasma it was 53·3 μg/ml. The concentration of zinc in endometrial exudates was 4·5 μg/ml; in endometrium it decreased from 21·8 to 13·3 μg/g (wet weight) during pregnancy and in plasma it was 0·6 μg/ml.

The tammar wallaby: a non-traditional animal model to study growth axis maturation

2019 ◽  
Vol 31 (7) ◽  
pp. 1276
Author(s):  
Jennifer A. Hetz ◽  
Brandon R. Menzies ◽  
Geoffrey Shaw ◽  
Marilyn B. Renfree
Keyword(s):  
Growth Hormone ◽  
Animal Model ◽  
Growth Factor ◽  
Animal Models ◽  
Growth Rates ◽  
Tammar Wallaby ◽  
Macropus Eugenii ◽  
Growth Axis ◽  
Functional Maturation ◽  
Peripartum Period

Maturation of the growth hormone (GH)/insulin-like growth factor 1 (IGF1) axis is a critical developmental event that becomes functional over the peripartum period in precocial eutherian mammals such as sheep. In mice and marsupials that give birth to altricial young, the GH/IGF1 axis matures well after birth, suggesting that functional maturation is associated with developmental stage, not parturition. Recent foster-forward studies in one marsupial, the tammar wallaby (Macropus eugenii), have corroborated this hypothesis. ‘Fostering’ tammar young not only markedly accelerates their development and growth rates, but also affects the timing of maturation of the growth axis compared with normal growing young, providing a novel non-traditional animal model for nutritional manipulation. This review discusses how nutrition affects the maturation of the growth axis in marsupials compared with traditional eutherian animal models.

Pellet-freezing spermatozoa of two marsupials: the tammar wallaby, Macropus eugenii, and the brushtail possum, Trichosurus vulpecula

1996 ◽  
Vol 8 (4) ◽  
pp. 681 ◽  
Author(s):  
FC Molinia ◽  
JC Rodger
Keyword(s):  
Room Temperature ◽  
Tammar Wallaby ◽  
Brushtail Possum ◽  
Vitro Fertilization ◽  
Macropus Eugenii ◽  
Progressive Motility ◽  
Viable Population ◽  
Phosphate Buffered Saline ◽  
Breeding Techniques

A protocol was developed for pellet-freezing spermatozoa of the tammar wallaby and the brushtail possum. Seren was collected by electro-ejaculation and wallaby spermatozoa were washed by 'swim-up' into phosphate-buffered saline (PBS), whereas possum spermatozoa were not washed. Wallaby spermatozoa were screened for toxicity in diluents containing a range of cryoprotectants (0-10%): dimethyl sulfoxide (DMSO), ethylene glycol and propanediol. Possum spermatozoa were tolerant of diluents containing 17.5% glycerol. Wallaby and possum spermatozoa were diluted 1:1 with the most promising cryoprotective diluents (final concentrations in PBS: possum, 17.5% glycerol; wallaby, 7.5% glycerol + 10% DMSO) and, after 5 min equilibration at room temperature, were pellet-frozen. Pellets were thawed (35 degrees C) and wallaby spermatozoa were washed by centrifugation (200 g for 5 min) and resuspended in PBS to minimize cryoprotectant toxicity. A high proportion of possum spermatozoa was recovered after freezing (67.5%), having good progressive motility (3.6 on a 0-5 scale). The progressive motility of frozen-thawed wallaby spermatozoa was also high (3.0), but only 10% of motile spermatozoa were recovered. The pellet-freezing method in conjunction with the post-thaw washing procedure (wallaby) may produce a viable population of cryopreserved marsupial spermatozoa suitable for use in assisted-breeding techniques such as in vitro fertilization and artificial insemination.

scholarly journals Induction of sperm maturation in vitro in epididymal cell cultures of the tammar wallaby (Macropus eugenii): disruption of motility initiation and sperm morphogenesis by inhibition of actin polymerization

Reproduction ◽  
2002 ◽  
pp. 107-117 ◽  
Author(s):  
M Lin ◽  
R Hess ◽  
RJ Aitken
Keyword(s):  
Culture System ◽  
Actin Polymerization ◽  
Tammar Wallaby ◽  
Sperm Maturation ◽  
Actin Organization ◽  
Cell Monolayers ◽  
Macropus Eugenii ◽  
Maturation In Vitro ◽  
Marsupial Species

A sperm-epididymal cell co-culture was shown to be capable of inducing the in vitro maturation of spermatozoa from a marsupial species, the tammar wallaby (Macropus eugenii). This system was able to maintain wallaby epididymal epithelial cells in vitro for more than 2 months. The system also enabled immature wallaby spermatozoa to differentiate from a T-shaped to a streamlined form, accompanied by the development of progressive motility after co-culture with epididymal cell monolayers that had been cultured for 7 days. The addition of inhibitors of actin polymerization (latrunculin A or B) to the co-culture system showed that wallaby sperm maturation was impaired by the interruption of actin organization within the immature spermatozoa. These results indicate that actin filaments play a significant role in sperm transformation during post-testicular maturation in marsupials. These observations also indicate that the marsupial co-culture system has the potential to greatly increase understanding of sperm-epididymal cell interactions and the mechanism of sperm maturation in these species.

scholarly journals In-vitro secretion of progesterone by the corpus luteum of the tammar wallaby, Macropus eugenii

Reproduction ◽  
1983 ◽  
Vol 67 (1) ◽  
pp. 57-63 ◽  
Author(s):  
L. A. Hinds ◽  
S. M. Evans ◽  
C. H. Tyndale-Biscoe
Keyword(s):  
Corpus Luteum ◽  
Tammar Wallaby ◽  
Macropus Eugenii

239. Expression of PAF-R and p53 in the endometrium during entry into and reactivation from diapause in the tammar wallaby

2008 ◽  
Vol 20 (9) ◽  
pp. 39
Author(s):  
J. C. Fenelon ◽  
G. Shaw ◽  
M. B. Renfree
Keyword(s):  
Tammar Wallaby ◽  
Early Embryo ◽  
Human Reproduction ◽  
Embryonic Diapause ◽  
P53 Expression ◽  
Cellular Location ◽  
Macropus Eugenii ◽  
A Cell

Embryonic diapause is widespread amongst mammals, but is especially common in the kangaroos and wallabies. In the tammar, Macropus eugenii, the sequence of endocrine events leading to embryonic diapause and reactivation are well defined and the blastocyst can remain in diapause for up to 11 months without cell division or apoptosis occurring (Renfree and Shaw 2000). The ovarian hormones exert their effects on the blastocyst by alterations in the endometrial secretions, but the molecular cross-talk between the endometrium and blastocyst is unknown. One possible regulator of diapause is the phospholipid PAF, an embryotrophin that acts as a trophic/survival factor for the early embryo (O'Neill 2005) partly by inactivating the expression of p53, a cell cycle inhibitor, via the PI3-K pathway. PAF is released from the tammar endometrium around the time of reactivation from diapause (Kojima et al. 1993). This study examined the expression of PAF-R and p53 in the tammar endometrium at entry into, and reactivation from, diapause. PAF-R and p53 were highly conserved with orthologueues in human and mouse. PAF-R and p53 expression was assessed by RT–PCR and both genes were expressed in the endometrium at all stages examined. Quantitative PCR (QPCR) studies performed for PAF-R in the endometrium show that levels of PAF-R vary depending on the stage examined and appear to be increasing at entry into diapause and decreasing at exit from diapause. Immunohistochemical (IHC) studies are in progress to determine the cellular location of PAF-R in the endometrium and confirm the QPCR results. QPCR and IHC studies are in progress to determine if there is any change in levels of expression or cellular location of p53 between the stages examined and how this relates to PAF-R availability. These results suggest that the control of diapause in the tammar involves interactions between multiple factors. (1) Renfree MB, Shaw G (2000) Diapause. Annu Rev Physiol 62, 353–375 (2) O'Neill C (2005) The role of Paf in embryo physiology. Human Reproduction Update 11, 215–228 (3) Kojima T et. al. (1993) Production and secretion of progesterone in vitro and presence of PAF in early pregnancy of the marsupial, Macropus eugenii. Reproduction Fertility Development 5, 15–25.

Timing and regulatory aspects of oocyte maturation in vitro in the tammar wallaby (Macropus eugenii)

1999 ◽  
Vol 11 (5) ◽  
pp. 247 ◽  
Author(s):  
Karen E. Mate ◽  
Janine M. Buist
Keyword(s):  
Kinase Inhibitor ◽  
Chromatin Condensation ◽  
Calf Serum ◽  
Tammar Wallaby ◽  
Protein Synthesis Inhibitor ◽  
Dependent Manner ◽  
Germinal Vesicle Breakdown ◽  
Macropus Eugenii ◽  
Nuclear Maturation

Oocytes from a marsupial, the tammar wallaby (Macropus eugenii), resemble those of eutherian mammals in their ability to resume meiosis in vitro when cultured under suitable conditions. Culture for 42–48 h in Eagle’s minimum essential medium (EMEM) supplemented with 10% fetal calf serum, and 10 g mL –1 porcine luteinizing hormone (pLH) was required in order for oocytes, collected from the large antral follicles (> 2 mm diameter) of tammar wallabies (primed with 6 mg of porcine follicle stimulating hormone twice daily for four days), to proceed to metaphase II (MII) of meiosis. Under these conditions, chromatin condensation was observed within 4–8 h of culture in 61% of oocytes; metaphase I (MI) chromosomes were observed from 18–30 h of culture (66%); and most oocytes (76%) progressed to MII by 42 h in vitro. The addition of cycloheximide, a protein synthesis inhibitor, at concentrations of 1–100 g mL –1 , prevented maturation of tammar wallaby oocytes in vitro. This effect was reversible, as oocytes washed free of cycloheximide after 4 h of incubation were able to progress to MII. The addition of cycloheximide to wallaby oocytes at MI of meiosis prevented normal progression to MII suggesting that proteins critical for nuclear maturation are synthesized throughout the maturation process. Genistein, a protein kinase inhibitor decreased maturation of wallaby oocytes in a dose dependent manner. However, the concentration required to significantly inhibit maturation of wallaby oocytes (60 g mL –1 ) was greater than that required for eutherian species. Most wallaby oocytes were able to undergo germinal vesicle breakdown (GVBD) in the presence of high concentrations of genistein but produced abnormal chromatin configurations and were unable to progress to MII. Future studies will examine whether cytoplasmic changes occur in marsupial oocytes in vitro and their temporal relationship to nuclear maturation.

Hormones of oestrus and ovulation and their manipulation in marsupials

1996 ◽  
Vol 8 (4) ◽  
pp. 661 ◽  
Author(s):  
LA Hinds ◽  
TP Fletcher ◽  
JC Rodger
Keyword(s):  
In Vitro Fertilization ◽  
Tammar Wallaby ◽  
Monodelphis Domestica ◽  
Ovarian Activity ◽  
Vitro Fertilization ◽  
Macropus Eugenii ◽  
Australian Species ◽  
Maturation In Vitro ◽  
American Laboratory

Oestrus and ovulation occur spontaneously in the majority of marsupials, with behavioural oestrus usually occurring 1-2 days before ovulation. The hormone changes that occur at this time have been described in the most detail for the monovular tammar wallaby Macropus eugenii. The respective roles of the Graafian follicle, corpus luteum and the pituitary in the events leading up to oestrus and ovulation in this species are also reviewed. Recently, various protocols have been developed for superovulation of marsupials, including Australian species, such as the brush-tailed possum, fat-tailed dunnart, brush-tailed bettong and tammar wallaby, and the American laboratory opossum, Monodelphis domestica. These protocols provide an opportunity for studying the regulation of ovarian activity and for the collection of larger quantities of material for the study of gamete maturation, in vitro fertilization and embryonic development.

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