PUBLICATION
Effects of somatotrophic axis (GH/GHR) double transgenesis on structural and molecular aspects of the zebrafish immune system
- Authors
- Batista, C.R., Figueiredo, M.A., Almeida, D.V., Romano, L.A., Marins, L.F.
- ID
- ZDB-PUB-150609-7
- Date
- 2015
- Source
- Fish & shellfish immunology 45(2): 725-32 (Journal)
- Registered Authors
- Keywords
- Growth hormone, gene expression, growth hormone receptor, head kidney, thymus
- MeSH Terms
-
- Animals
- Animals, Genetically Modified*/genetics
- Animals, Genetically Modified*/immunology
- Animals, Genetically Modified*/metabolism
- Female
- Gene Expression
- Gene Transfer Techniques
- Growth Hormone*/genetics
- Growth Hormone*/immunology
- Growth Hormone*/metabolism
- Male
- Muscle, Skeletal/metabolism
- Receptors, Somatotropin*/genetics
- Receptors, Somatotropin*/immunology
- Receptors, Somatotropin*/metabolism
- Zebrafish*/genetics
- Zebrafish*/immunology
- Zebrafish*/metabolism
- Zebrafish Proteins/genetics
- Zebrafish Proteins/immunology
- Zebrafish Proteins/metabolism
- PubMed
- 26052013 Full text @ Fish Shellfish Immunol.
Citation
Batista, C.R., Figueiredo, M.A., Almeida, D.V., Romano, L.A., Marins, L.F. (2015) Effects of somatotrophic axis (GH/GHR) double transgenesis on structural and molecular aspects of the zebrafish immune system. Fish & shellfish immunology. 45(2):725-32.
Abstract
The development of growth hormone (GH) transgenic fish has been shown to be a promising method to improve growth rates. However, the role of GH is not restricted only to processes involved in growth. Several others physiological processes, including immune function, are impaired due to GH imbalances. Given the importance of generating GH transgenic organisms for aquaculture purposes, it is necessary to develop strategies to reduce or compensate for the collateral effects of GH. We hypothesized that the generation of double transgenic fish that overexpress GH and growth hormone receptor (GHR) in the skeletal muscle could be a possible alternative to compensate for the deleterious effects of GH on the immune system. Specifically, we hypothesized that increased GHR amounts in the skeletal muscle would be able to reduce the level of circulating GH, attenuating the GH signaling on the immune cells while still increasing the growth rate. To test this hypothesis, we evaluated the size of the immune organs, T cell content in the thymus and head kidney, and expression of immune-related genes in double-transgenic fish. Contrary to our expectations, we found that the overexpression of GHR does not decrease the deleterious effect of GH excess on the size of the thymus and head kidney, and in the content of CD3(+) and CD4(+) cells in the thymus and head kidney. Unexpectedly, the control GHR transgenic group showed similar impairments in immune system parameters. These results indicate that GHR overexpression does not reverse the impairments caused by GH and, in addition, could reinforce the damage to the immune functions in GH transgenic zebrafish.
Genes / Markers
Expression
Phenotype
Mutations / Transgenics
Human Disease / Model
Sequence Targeting Reagents
Fish
Orthology
Engineered Foreign Genes
Mapping