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Dopamine receptors gene expression pattern and locomotor improvement differ between female and male zebrafish during spinal cord auto repair

Hosseini, P ; Sharif University of Technology | 2022

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  1. Type of Document: Article
  2. DOI: 10.1089/zeb.2021.0081
  3. Publisher: Mary Ann Liebert Inc , 2022
  4. Abstract:
  5. The dopaminergic system, a spinal cord (SC) motor circuit regulator, is administrated by sexual hormones and evolutionary conserved in all vertebrates. Accordingly, we hypothesized that the dopamine receptor (DAR) expression pattern may be dissimilar in female and male zebrafish SC auto repair. We implemented an uncomplicated method to induce spinal cord injury (SCI) on fully reproductive adult zebrafish, in both genders. SCI was induced using a 28-gauge needle at 9th-10th vertebra without skin incision. Thereupon, lesioned SC was harvested for DAR gene expression analysis; zebrafish were tracked routinely for any improvement in swim distance, speed, and their roaming capabilities/preference. Our findings revealed discrepancies between drd2a, drd2b, drd3, drd4a, and drd4b expression patterns at 1, 7, and 14 days postinjury (DPI) between female and male zebrafish. The receptors were mostly upregulated at 7 DPI in both genders, whereas drd2a and drd2b were mostly maximized in females. Surprisingly, drd3 was measured greater even in intact SC in males. In addition, female zebrafish were able to swim farther distances more accelerated, in multiple directions, by engaging more caudal muscles compared with males, of course with no statistical significance. Indeed, females were able to generate whole-body rotation and move forward using the muscles downstream to the lesion site, whereas the coordinated movement in males was accomplished by rostral muscles. In conclusion, there are differences in DAR gene expression pattern throughout SC autonomous recovery between adult female and male zebrafish, and also, female locomotion seems to ameliorate more rapidly. © 2022, Mary Ann Liebert, Inc., publishers 2022
  6. Keywords:
  7. Auto repair ; Gender ; Spinal cord ; Zebrafish ; Dopamine receptor ; Zebrafish protein ; Animal ; Genetics ; Metabolism ; Physiology ; Spinal cord injury ; Zebra fish ; Animals ; Dopamine ; Female ; Gene Expression ; Locomotion ; Male ; Receptors, Dopamine ; Spinal Cord Injuries ; Zebrafish Proteins
  8. Source: Zebrafish ; Volume 19, Issue 4 , 2022 , Pages 137-147 ; 15458547 (ISSN)
  9. URL: https://pubmed.ncbi.nlm.nih.gov/35905303