Calcium oxalate (CaOx) stone is the main type, and its formation is closely related to the metabolism of oxalic acid and calcium. Gut Microbiome is normal microflora which settled in the human intestinal tract and plays an important role in regulating a variety of metabolism in the body. In the past, Oxalobacter formigenes in gut was a protective factor for the formation of CaOx stones. Recently, it has been found that the bacteria regulating oxalate metabolism were not limited to Oxalobacter formigenes. Gut Microbiome of CaOx stones formers is different from healthy people. It regulates the metabolism of oxalic acid in the body through the gut-kidney axis and affect the formation of CaOx stone. The purpose of this study is to describe the characteristics of intestinal flora in patients with CaOx stones, and to summarize its potential function in the formation of CaOx stones and its possible clinical application in the future.

Objective : To investigate the effect of adeno⁃associated virus ( AAV) delivery of short hairpin RNA ( shRNA) against the Ptger3 gene in the lateral parabrachial nucleus (LPB) on the fever induced by microinjection of prostaglandin E2 (PGE2 ) into the LPB and the intraperitoneal injection of lipopolysaccharide (LPS) . Methods: AAV2⁃shRNA⁃Ptger3(EP3) ⅣEGFP ( shRNA⁃EP3) and AAV2⁃ CMV⁃ EGFP ( shRNA⁃control) viruses were constructed and transfected the rat LPB by stereotaxic injection. Four weeks later, the transfection efficiency of AAV viruses was observed by fluorescence microscopy , and the knockdown efficiency was determined by real⁃time PCR of EP3 receptor mRNA on the LPB. The effects of microinjection of saline or PGE2 in the LPB or intraperitoneal injection of LPS on body temperature (Tcore ) and energy expenditure (EE) of shRNA⁃control group and shRNA⁃EP3 group were monitored using an animal monitoring system with temperature telemetry. Results : AAV virus transfecnificant difference in basal body temperature between shRNA⁃control group and shRNA⁃EP3 group. Tcore and EE were briefly and slightly increased after microinjection of saline in the LPB , but there was no significant difference between the two groups. Compared with the shRNA⁃control group , the febrile response induced by LPB PGE2 was attenuated in the shRNA⁃EP3 group (P < 0. 05) . Furthermore , the knockdown of EP3 receptor of LPB also attenuated the LPS⁃induced fever, and the Tcore 5. 5 h post⁃LPS in the shRNA⁃EP3 rats increased compared with the baseline (P < 0. 05) , which was lower than that in the shRNA⁃control rats ( P < 0. 01) . Conclusion EP3 receptor knockdown in LPB attenuates the febrile response induced by microinjection of PGE2 in the LPB and intraperitoneal injection of LPS , suggesting that EP3 receptors of LPB mediate the pyrogenic action of LPB PGE2 and partly participate in LPS⁃induced fever.