Analysis of Enzyme Activity and Cellular Function for the N80S and S480F Asparagine Synthetase Variants Expressed in a Child with Asparagine Synthetase Deficiency.
Stephen J StaklinskiSarah SnanoudjAnne-Marie GuerrotCatherine VanhulleFrançois LecoquierreSoumeya BekriMichael S KilbergPublished in: International journal of molecular sciences (2022)
Asparagine Synthetase Deficiency (ASNSD) is a disease caused by mutations in asparagine synthetase ( ASNS ). Newborns exhibit microcephaly, intractable epileptic-like seizures, progressive brain atrophy, and axial hypotonia. ASNSD results in global developmental delays and premature death. The present report describes a 9-year-old child who is a compound heterozygote with ASNS mutations c.1439C > T and c.239A > G leading to variants p.S480F and p.N80S, respectively. When grown in a complete culture medium, primary fibroblasts from the child contained ASNS mRNA and protein levels similar to an unrelated wild-type fibroblast cell line. When the child's fibroblasts were cultured for up to 72 h in a medium lacking asparagine, proliferation was reduced by about 50%. Purification of ASNS proteins harboring either the S480F or the N80S substitution had reduced enzymatic activity by 80% and 50%, respectively. Ectopic expression of either variant in ASNS-null Jensen rat sarcoma (JRS) cells did not support proliferation in the absence of medium-supplied asparagine, whereas expression of wild-type enzyme completely restored growth. These studies add to the list of pathogenic ASNS variants and use enzyme activity and protein expression in ASNS-null cells to expand our knowledge of the biological impact of mutations in the ASNS gene.
Keyphrases
- wild type
- induced apoptosis
- copy number
- mental health
- poor prognosis
- signaling pathway
- cell cycle arrest
- binding protein
- multiple sclerosis
- healthcare
- oxidative stress
- pregnant women
- zika virus
- intellectual disability
- hydrogen peroxide
- dna methylation
- endoplasmic reticulum stress
- gene expression
- genome wide
- cord blood
- autism spectrum disorder
- small molecule
- replacement therapy
- transcription factor
- recombinant human
- smoking cessation