Immunohistochemical Analysis of Intestinal and Central Nervous System Morphology in an Obese Animal Model (Danio rerio) Treated with 3,5-T2: A Possible Farm Management Practice?
Roberta ImperatoreLea TunisiIsabella MavaroLivia D'AngeloChiara AttanasioOmid SafariHamidreza Ahmadniaye MotlaghPaolo De GirolamoLuigia CristinoEttore VarricchioMarina PaolucciPublished in: Animals : an open access journal from MDPI (2020)
The 3,5-diiodo-L-thyronine (3,5-T2) is an endogenous metabolite of thyroid hormones, whose administration to rodents fed high-fat diet (HFD) prevents body weight increase and reverts the expression pattern of pro-inflammatory factors associated to HFD. The diet-induced obese (D.I.O.) zebrafish (Danio rerio) has been recently used as an experimental model to investigate fundamental processes underlying central and peripheral obesity-driven inflammation. Herein, we aim to understand the role of 3,5-T2 in regulating central and peripheral inflammation in D.I.O. model of zebrafish. 3,5-T2 (10 nM and 100 nM) was administered with the obesity-inducing diet (D.I.O. with 3,5-T2) or after 4 weeks of obesity-inducing diet (D.I.O. flw 3,5-T2). 3,5-T2 significantly increased the body weight and serum triglyceride levels in D.I.O. zebrafish in both conditions. Moreover, 3,5-T2 sustained or increased inflammation in the anterior (AI) and mid (MI) intestine when administered with the obesity-inducing diet, as indicated by the immunoexpression of the inflammatory markers tumor-necrosis factor-α (TNFα), cyclooxygenase 2 (COX2), calnexin, caspase 3, and proliferating cell nuclear antigen (PCNA). On the contrary, when 3,5-T2 was administered after the obesity-inducing diet, partly reverted the intestinal alteration induced by D.I.O. In addition, brain inflammation, as indicated by the increase in the activation of microglia, was detected in D.I.O. zebrafish and D.I.O. treated with 3,5-T2. These findings reveal that the effects of 3,5-T2 on fish intestine and brain can deviate from those shown in obese mammals, opening new avenues to the investigation of the potential impact of this thyroid metabolite in different diseases including obesity.
Keyphrases
- weight loss
- insulin resistance
- high fat diet
- metabolic syndrome
- bariatric surgery
- body weight
- adipose tissue
- type diabetes
- oxidative stress
- high fat diet induced
- weight gain
- physical activity
- obese patients
- healthcare
- rheumatoid arthritis
- artificial intelligence
- single cell
- nitric oxide
- machine learning
- primary care
- resting state
- dna methylation
- deep learning
- cell therapy
- climate change
- induced apoptosis
- spinal cord
- bone marrow
- functional connectivity