Distribution of putative primordial germ cells in equine embryos.
Abstract: Eighteen equine embryos, 3 each on Days 20, 22, 24, 26, 28 and 30 post ovulation, were collected transcervically by uterine lavage, fixed in 4% paraformaldehyde and embedded in paraffin wax. Ten micron serial sections were stained to determine alkaline phosphatase (AP) activity in the cells. Positive cells were counted and their approximate location determined. The cells were approximately 8 microm in diameter and the entire cell, except the nucleus, stained strongly with many small round areas of intense staining in the cytoplasm. The cells varied from round to elongated in shape and pseudopodia were often present. Thus, they were similar in shape and staining pattern to primordial germ cells described in other species. A total of 2 AP-positive cells were found in the 3 Day 20 embryos and the mean number of AP-positive cells changed (P<0.05) over the succeeding days as follows; Day 20 = 1; Day 22 = 251; Day 24 = 1484; Day 26 = 2385; Day 28 = 3267; Day 30 = 2424. AP-positive cells present in the liver were not included in the calculations. In the Day 22 embryos, 10% of the putative primordial germ cells were found within the vascular system, including the heart chambers, and only 4% were found along the genital ridge. The percentage of cells found in the vascular system decreased from 10% on Day 22 to 1% on Day 30, although not significantly. The percentage of cells found along the genital ridge changed (P<0.05) over gestational age as follows; Day 22 = 4%; Day 24 = 10%; Day 26 = 28%; Day 28 = 28%; Day 30 = 16%. Once the putative primordial germ cells reached the developing gonads they were no longer AP-positive and nor was the gonadal stroma. The rest of the cells were distributed along the dorsal mesentery (range, 14-24%), near the dorsal aorta (16-29%), in the mesonephros (1-3%) and in other areas of the embryo (27-44%). Large numbers were in the cranial portion of the embryo. Although it is likely that the population of AP-positive cells counted included the primordial germ cells, other cells, such as haematopoietic precursor cells, could not be ruled out. The AP reactivity, the appearance of the cells and their migratory pattern through the dorsal mesentery to the gonadal ridge were consistent with descriptions of primordial germ cells in other species. Their distribution throughout the embryo, especially its cranial aspect and their location within, or in close proximity to, blood vessels suggested that the equine embryo is unusual among mammals in that some of its primordial germ cells migrate through the blood.
Publication Date: 1998-05-21 PubMed ID: 9593533DOI: 10.1111/j.2042-3306.1997.tb05105.xGoogle Scholar: Lookup
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- Comparative Study
- Journal Article
- Research Support
- Non-U.S. Gov't
Summary
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The research article involves a study on the distribution of putative primordial germ cells (pPGCs), cells thought to eventually develop into sperm or egg cells, in horse embryos. The investigation was performed on 18 equine embryos at different stages of development and used a staining method to track the movement and count of these cells over time.
Methodology
- The research investigated eighteen horse embryos, collected on consecutive days from 20 to 30 days post ovulation, using uterine lavage (a cleaning process).
- These embryos were prepared by fixing them in paraformaldehyde, a preservative solution, and embedding them in paraffin wax for protection.
- To identify the pPGCs, the researchers cut the embryos into thin sections and stained them for alkaline phosphatase (AP) activity, an enzyme commonly found in pPGCs.
- Cells expressing AP were considered positive for pPGCs and their location and quantity were recorded.
Results and Observations
- The stained cells were round to elongate in shape, often with pseudopodia (foot-like extensions), and about 8 micrometers in diameter. The cells stained except for the nucleus.
- These characteristics corresponded with the expected appearance of pPGCs based on existing research on other species.
- The concentration of these pPGCs varied across the examined days, with the least found on Day 20 and the most on Day 28.
- A significant number of pPGCs were found embedded in the vascular system, including the heart chambers, especially on Day 22. Over time, the proportion within the vascular system decreased.
- The researchers also recorded the gestational age-dependent shifting location of the pPGCs within the embryos, noticing a significant change in the proportion located along the so-called ‘genital ridge’.
- By the time pPGCs reached the developing gonads, they no longer expressed AP, likewise for the gonadal stroma, suggesting a potential progression in their development.
Conclusions
- The researchers concluded that the counted AP-positive cells likely included pPGCs, though other types of cells could not be completely ruled out.
- The staining properties of the cells, their appearance, and migratory pattern were similar to descriptions of pPGCs in other species, reinforcing the researchers’ identifications.
- The distribution pattern of pPGCs indicates that horse embryos may exhibit a unique trait amongst mammals: some of their pPGCs may travel through the bloodstream during development.
Cite This Article
APA
Curran S, Urven L, Ginther OJ.
(1998).
Distribution of putative primordial germ cells in equine embryos.
Equine Vet J Suppl(25), 72-76.
https://doi.org/10.1111/j.2042-3306.1997.tb05105.x Publication
Researcher Affiliations
- Animal Health and Biomedical Sciences, University of Wisconsin-Madison, 53706, USA.
MeSH Terms
- Alkaline Phosphatase / analysis
- Alkaline Phosphatase / metabolism
- Animals
- Embryo, Mammalian / cytology
- Embryo, Mammalian / enzymology
- Female
- Germ Cells / cytology
- Germ Cells / enzymology
- Horses / embryology
- Horses / physiology
- Pregnancy
- Pregnancy, Animal / physiology
Citations
This article has been cited 2 times.- Scarlet D, Handschuh S, Reichart U, Podico G, Ellerbrock RE, Demyda-Peyrás S, Canisso IF, Walter I, Aurich C. Sexual Differentiation and Primordial Germ Cell Distribution in the Early Horse Fetus. Animals (Basel) 2021 Aug 17;11(8).
- de Castro RCF, Buranello TW, Recchia K, de Souza AF, Pieri NCG, Bressan FF. Emerging Contributions of Pluripotent Stem Cells to Reproductive Technologies in Veterinary Medicine. J Dev Biol 2024 May 7;12(2).
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