ISSN: 2578-4811
Authors: Gunjan Dhawan, Indra Mani and Kavita Vasdev*
Stress is not affected only on brain but also on the other parts of body like changes in heart rate, blood pressure levels, circadian rhythm etc. Recent studies have been established that exposure to stress promotes alterations in several epigenetic characters like histone acetylation and methylation as well as DNA methylation, in various limbic brain regions. Chromatin remodeling processes are necessary for learning and memory. However, abnormal epigenetic modifications can lead to cognitive deficits. DeltaFosB (ΔFosB) is protein of Fos family. FosB gene forms FosB and ΔFosB as product. Increased expression of FosB over ΔFosB in nucleus accumbens (NAc) region of brain protects animals from the deleterious effects of chronic stress. Moreover, epigenetically, H3K9me2 is enriched at the FosB promoter in NAc of human depressed patients. FosB has very low life while ΔFosB has exceptionally long life span. Thus persists for long time in the stress condition and leads to depression and anxiety. It has also been revealed that elevation in ΔFosB level occurs due to chronic stress condition. The epigenetic factors responsible for stress are governed by ΔFosB expression level. The expression of ΔFosB in turn depends on the presence of serum response factor (SRF) transcription factor. SRF transcription factor is encoded by srf gene. To understand the mechanism of stress condition, srf gene can be one of the promising targets to uncover the problems related to stress conditions.
Keywords:
Stress; Epigenetic; ΔFosb; Srf Gene; Fosb; Chromatin Remodeling
