Age-related differences in hypoxia-associated genes and cytokine profile in male Wistar rats

Hypoxia tolerance of the organism depends on many factors, including age. High newborn organisms tolerance and high level of oxidative stress throughout aging were demonstrated by many studies. However, there is lack of investigations reflecting the expression of key hypoxia-inducible factor HIF in different age organisms in correlation to levels of pro-inflammatory and anti-inflammatory cytokines. Liver is a sensitive to hypoxia organ, and is an important organ in providing an acute reaction to infections - it synthesizes acute inflammation phase proteins, in particular, C-reactive protein. The aim of study was to determine relationship between age-related tolerance to hypoxia and HIF-1 and PHD2 (prolyl hydroxylase domain protein) expression levels in the liver and the production of cytokines in the spleen in newborn, prepubertal and adult Wistar rats. Newborn rats are characterized by high mRNA Hif-1 alpha expression level in the liver, accompanied by a low content of HIF-1 protein and high level of PHD2. The growth in HIF-1 alpha protein level throughout age is accompanied by the growth of pro-inflammatory cytokines level. Prepubertal animals are the least hypoxia resistant and their HIF-1 alpha mRNA expression level was higher than in adult animals. The PHD2 activity in prepubertal animals was significantly reduced in comparison to newborn rats, and the HIF-1 alpha protein level did not change. Further studies require the identification of additional mechanisms, determining the regulation of the HIF-1 alpha level in prepubertal animals.

Automated summary

The study found that newborn rats have high HIF-1 alpha mRNA expression levels in the liver, accompanied by low HIF-1 protein content and high levels of PHD2. As age increases, the HIF-1 alpha protein level increases along with the levels of pro-inflammatory cytokines. Prepubertal animals exhibit the least resistance to hypoxia, with higher HIF-1 alpha mRNA expression levels compared to adult animals.