RRC ID 88562
Author Terada K, Watanabe T, Yasuno N, Ohtsubo T, Shibata S, Ichida K, Hosoyamada M.
Title Pseudogenization of the Slc23a4 gene is necessary for the survival of Xdh-deficient mice.
Journal Sci Rep
Abstract In most patients with type 1 xanthinuria caused by mutations in the xanthine dehydrogenase gene (XDH), no clinical complications, except for urinary stones, are observed. In contrast, all Xdh(- / -) mice die due to renal failure before reaching adulthood at 8 weeks of age. Hypoxanthine or xanthine levels become excessive and thus toxic in Xdh(- / -) mice because enhancing the activity of hypoxanthine phosphoribosyl transferase (HPRT), which is an enzyme that uses hypoxanthine as a substrate, slightly increases the life span of these mice. In this study, we targeted the mouse intestinal sodium-dependent nucleobase transporter (SNBT) gene (Slc23a4), which is a pseudogene in humans. Hprt(high)Xdh(- / -)Slc23a4(- / -) mice had a longer life span and reached adulthood. The urinary xanthine excretion of these mice was 20-fold greater than that of patients with type 1 xanthinuria. The urinary hypoxanthine/xanthine ratio of Hprt(high)Xdh(- / -)Slc23a4(- / -) mice was lower than that of patients with type 1 xanthinuria. Hprt(high)Xdh(- / -)Slc23a4(- / -) mice exhibited renal impairment, accompanied by high plasma creatinine levels and anemia. Moreover, female Hprt(high)Xdh(- / -)Slc23a4(- / -) mice produced offspring that did not survive. In conclusion, for the first time, we established that Xdh(- / -) mice survive to adulthood.
Volume 15(1)
Pages 3250
Published 2025-1-25
DOI 10.1038/s41598-025-87751-9
PII 10.1038/s41598-025-87751-9
PMID 39863758
PMC PMC11762782
MeSH Animals Female Humans Hypoxanthine / urine Hypoxanthine Phosphoribosyltransferase / genetics Hypoxanthine Phosphoribosyltransferase / metabolism Longevity / genetics Male Mice Mice, Knockout Nucleobase Transport Proteins* / genetics Pseudogenes* / genetics Xanthine / urine Xanthine Dehydrogenase* / deficiency Xanthine Dehydrogenase* / genetics
IF 3.998
Resource
Mice 049682-UCD