Although the existence of the primo vasculature system has been shown in many species, including mice, rats, rabbits and humans, the biological role of this system, including expression of genes and proteins, has not yet been investigated. Especially the transcriptional action by mRNA, which is required for biological action, needs to be studied in primo vasculature biology. Differentially expressed genes in both isolated primo vessels and lymphatic vessels of rabbits were analyzed by RNA sequencing experiments. Primer efficiency and RNA purity of the primo vessels under lipopolysaccharides were confirmed prior to performing real-time qRT-PCR analysis following RNA extraction. We demonstrated that FLT4 was enriched in primo vessels and that several genes, including HSPH1 and EPHB2, were highly expressed in primo vessels compared with lymphatic vessels. Our data show that almost all genes, except HSPA4, were increased or sustained in isolated primo vessels compared with lymphatic vessels (FLT4 2.58 fold, HSPH1 1.83 fold, EPHB2 1.52 fold; whereas HSPA4 decreased 0.50 fold), suggesting primo vessels as a central regulator in diverse physiology. This implies that FLT4, HSPH1, and EPHB2 in high amounts may be involved in the functional activity of primo vessels. Our experimental data show that several genes are highly enriched in primo vessels in the lymphatic vessels of the rabbit.
Keywords: Differentially expressed gene (DEG); FLT4; Primo vessel; RNA Seq; qRT-PCR.