Next Generation Sequencing unveils the effect of caloric restriction on the splenic response to virulent H37rv Mycobacterium tubercolosis in DBA/2 mice
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ABSTRACT: Purpose: The goal of this study was the transcriptome high-throughput data analysis of spleen cells from mice infected with a virulent strain of mycobacterium (H37rv) and either fed ad libitum (AL) or caloric restricted (CR) Methods: Spleen cell total RNA profile of 17 weeks old mice (1. MTB infected, Ad libitum fed; 2. MTB infected, Caloric restricted; 3. Not infected, Ad libitum fed; 4. Not infected, Caloric restricted; a pool of 5 animals per group) were generated by deep sequencing, in triplicate, using TruSeq Stranded Total RNA Illumina technology Results: Principal component analysis and unsupervised clustering showed that the RNA-seq profiles of spleen cells from these four groups of mice were clearly distinct and infection was the major force affecting gene expression, with 67% of variance coming from the infection status and another 23% variance being dependent on caloric intake . When directly comparing AL versus CR MTB infected spleens, 628 genes were found differentially expressed. Supervised hierarchical clustering based on the expression of these 628 genes was able to unveil the unique transcriptional profile of CR MTB infected mice compared to both AL MTB infected and Not infected mice. Coclusions: Caloric restriction is able to affect the expression of a significant number of genes in spleen cells isolated from mice infected with MTB. The study of biological process enrichements highlights relevant immune-related regulation in these animals, than may be at the base of the higher capacity of caloric restricted, compared to ad libitum fed, animals to resist MTB infection.
ORGANISM(S): Mus musculus
PROVIDER: GSE127263 | GEO | 2021/01/08
REPOSITORIES: GEO
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