PUBLICATION
Defining the cellular complexity of the zebrafish bipotential gonad
- Authors
- Kossack, M.E., Tian, L., Bowie, K., Plavicki, J.S.
- ID
- ZDB-PUB-230811-41
- Date
- 2023
- Source
- Biology of reproduction 109(5): 586-600 (Journal)
- Registered Authors
- Kossack, Michelle E., Plavicki, Jessica
- Keywords
- Zebrafish, bipotential gonad, endothelial, lymphatic, macrophage, pericyte, reproduction, single-cell, vasculature
- MeSH Terms
-
- Animals
- Animals, Genetically Modified
- Endothelial Cells*
- Female
- Gonads
- Mice
- Ovary
- Zebrafish*/genetics
- PubMed
- 37561446 Full text @ Biol. Reprod.
Citation
Kossack, M.E., Tian, L., Bowie, K., Plavicki, J.S. (2023) Defining the cellular complexity of the zebrafish bipotential gonad. Biology of reproduction. 109(5):586-600.
Abstract
Zebrafish are routinely used to model reproductive development, function, and disease, yet we still lack a clear understanding of the fundamental steps that occur during early bipotential gonad development, including when endothelial cells, pericytes, and macrophage cells arrive at the bipotential gonad to support gonad growth and differentiation. Here, we use a combination of transgenic reporters and single-cell sequencing analyses to define the arrival of different critical cell types to the larval zebrafish gonad. We determined that blood initially reaches the gonad via a vessel formed from the swim bladder artery, which we have termed the gonadal artery. We find that vascular and lymphatic development occurs concurrently in the bipotential zebrafish gonad and our data suggest that similar to what has been observed in developing zebrafish embryos, lymphatic endothelial cells in the gonad may be derived from vascular endothelial cells. We mined preexisting sequencing data sets to determine whether ovarian pericytes had unique gene expression signatures. We identified 215 genes that were uniquely expressed in ovarian pericytes that were not expressed in larval pericytes. Similar to what has been shown in the mouse ovary, our data suggest that pdgfrb + pericytes may support the migration of endothelial tip cells during ovarian angiogenesis. Using a macrophage-driven photoconvertible protein, we found that macrophage established a nascent resident population as early as 12 dpf and can be observed removing cellular material during gonadal differentiation. This foundational information demonstrates that the early bipotential gonad contains complex cellular interactions, which likely shape the health and function of the mature, differentiated gonad.
Genes / Markers
Expression
Phenotype
Mutations / Transgenics
Human Disease / Model
Sequence Targeting Reagents
Fish
Orthology
Engineered Foreign Genes
Mapping