Agxt KO Mouse
Product Name
Agxt KO Mouse
Product ID
C001703
Strain Name
C57BL/6NCya-Agxtem1/Cya
Backgroud
C57BL/6NCya
Status
When using this mouse strain in a publication, please cite “Agxt KO Mouse (Catalog C001703) were purchased from Cyagen.”
Product Type
Age
Genotype
Sex
Quantity
Gene Name
Agxt
Gene Alias
AGT, SPT, Agt1, Agxt1
NCBI ID
Chromosome
Chr 1 (Mouse)
MGI ID
Datasheet
Strain Description
The AGXT gene, mapping to chromosome 2q37.3, encodes alanine-glyoxylate aminotransferase (AGT), a pyridoxal 5'-phosphate-dependent homotetrameric enzyme predominantly expressed in hepatic peroxisomes [1]. AGT is central to glyoxylate metabolism, catalyzing its transamination to glycine and preventing its oxidation to oxalate [1]. Primary Hyperoxaluria Type 1 (PH1), a rare autosomal recessive disorder affecting approximately 1-3 per million individuals, arises from over 175 identified pathogenic mutations in AGXT. These mutations typically result in deficient or mislocalized AGT, leading to marked overproduction of oxalate [2]. The ensuing hyperoxaluria causes deposition of calcium oxalate in the kidneys, manifesting as nephrolithiasis and nephrocalcinosis, which can progress to end-stage renal disease [3]. In severe cases, systemic oxalosis can occur [4]. Agxt-deficient mice serve as critical preclinical models, faithfully mirroring the biochemical and pathological features of PH1 and enabling the evaluation of diverse therapeutic modalities, including enzyme replacement, substrate reduction, and gene therapy.
The Agxt KO mouse is a gene knockout model created using gene-editing techniques to knock out the coding sequence of the Agxt gene (the homolog of the human AGXT gene) in mice. This model is used to research the pathogenic mechanisms of primary hyperoxaluria and develop related therapeutic strategies.
Reference
Williams EL, Acquaviva C, Amoroso A, Chevalier F, Coulter-Mackie M, Monico CG, Giachino D, Owen T, Robbiano A, Salido E, Waterham H, Rumsby G. Primary hyperoxaluria type 1: update and additional mutation analysis of the AGXT gene. Hum Mutat. 2009 Jun;30(6):910-7.
Sun Y, Li W, Shen S, Yang X, Lu B, Zhang X, Lu P, Shen Y, Ji J. Loss of alanine-glyoxylate and serine-pyruvate aminotransferase expression accelerated the progression of hepatocellular carcinoma and predicted poor prognosis. J Transl Med. 2019 Nov 26;17(1):390.
Soliman NA, Mabrouk S. Primary hyperoxaluria type 1 in developing countries: novel challenges in a new therapeutic era. Clin Kidney J. 2022 May 17;15(Suppl 1):i33-i36.
Gang X, Liu F, Mao J. Lumasiran for primary hyperoxaluria type 1: What we have learned? Front Pediatr. 2023 Jan 10;10:1052625.
Strain Strategy
The mouse Agxt gene in mice consists of 11 exons, with the start codon in exon 1 and the stop codon in exon 11. This strain was created by gene-editing techniques that knocked out the region spanning exons 3 ~ 8.
Figure 1. Diagram of the gene editing strategy for the generation of Agxt KO mice.
Application Area
Studies of glyoxylate metabolism regulation;
Primary Hyperoxaluria pathogenesis and therapeutic drug evaluation.
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