Beta-ureidopropionase deficiency is a disorder that causes excessive amounts of molecules called N-carbamyl-beta-aminoisobutyric acid and N-carbamyl-beta-alanine to be released in the urine. Neurological problems ranging from mild to severe also occur in some affected individuals.
People with beta-ureidopropionase deficiency can have low muscle tone (hypotonia), seizures, speech difficulties, developmental delay, intellectual disability, and autistic behaviors that affect communication and social interaction. Some people with this condition have an abnormally small head size (microcephaly); they may also have brain abnormalities that can be seen with medical imaging. Deterioration of the optic nerve, which carries visual information from the eyes to the brain, can lead to vision loss in this condition.
In some people with beta-ureidopropionase deficiency, the disease causes no neurological problems and can only be diagnosed by laboratory testing.
The prevalence of beta-ureidopropionase deficiency is unknown. A small number of affected individuals from populations around the world have been described in the medical literature. In Japan, the prevalence of beta-ureidopropionase deficiency has been estimated as 1 in 6,000 people. Researchers suggest that in many affected individuals with absent or mild neurological problems, the condition may never be diagnosed.
Beta-ureidopropionase deficiency is caused by mutations in the UPB1 gene, which provides instructions for making an enzyme called beta-ureidopropionase. This enzyme is involved in the breakdown of molecules called pyrimidines, which are building blocks of DNA and its chemical cousin RNA.
The beta-ureidopropionase enzyme is involved in the last step of the process that breaks down pyrimidines. This step converts N-carbamyl-beta-aminoisobutyric acid to beta-aminoisobutyric acid and also breaks down N-carbamyl-beta-alanine to beta-alanine, ammonia, and carbon dioxide. Both beta-aminoisobutyric acid and beta-alanine are thought to play roles in the nervous system. Beta-aminoisobutyric acid increases the production of a protein called leptin, which has been found to help protect brain cells from damage caused by toxins, inflammation, and other factors. Research suggests that beta-alanine is involved in sending signals between nerve cells (synaptic transmission) and in controlling the level of a chemical messenger (neurotransmitter) called dopamine.
UPB1 gene mutations can reduce or eliminate beta-ureidopropionase enzyme activity. Loss of this enzyme function reduces the production of beta-aminoisobutyric acid and beta-alanine, and leads to an excess of their precursor molecules, N-carbamyl-beta-aminoisobutyric acid and N-carbamyl-beta-alanine, which are released in the urine. Reduced production of beta-aminoisobutyric acid and beta-alanine may impair the function of these molecules in the nervous system, leading to neurological problems in some people with beta-ureidopropionase deficiency. The extent of the reduction in enzyme activity caused by a particular UPB1 gene mutation, along with other genetic and environmental factors, may determine whether people with beta-ureidopropionase deficiency develop neurological problems and the severity of these problems.
This condition is inherited in an autosomal recessive pattern, which means both copies of the gene in each cell have mutations. The parents of an individual with an autosomal recessive condition each carry one copy of the mutated gene, but they typically do not show signs and symptoms of the condition.
Other Names for This Condition
- Beta-alanine synthase deficiency
- Deficiency of beta-ureidopropionase
Additional Information & Resources
Genetic Testing Information
Catalog of Genes and Diseases from OMIM
Scientific Articles on PubMed
- Nakajima Y, Meijer J, Dobritzsch D, Ito T, Meinsma R, Abeling NG, Roelofsen J, Zoetekouw L, Watanabe Y, Tashiro K, Lee T, Takeshima Y, Mitsubuchi H, Yoneyama A, Ohta K, Eto K, Saito K, Kuhara T, van Kuilenburg AB. Clinical, biochemical and molecular analysis of 13 Japanese patients with beta-ureidopropionase deficiency demonstrates high prevalence of the c.977G > A (p.R326Q) mutation [corrected]. J Inherit Metab Dis. 2014 Sep;37(5):801-12. doi: 10.1007/s10545-014-9682-y. Epub 2014 Feb 14. Erratum In: J Inherit Metab Dis. 2014 Nov;37(6):1023. Citation on PubMed or Free article on PubMed Central
- van Kuilenburg AB, Dobritzsch D, Meijer J, Krumpel M, Selim LA, Rashed MS, Assmann B, Meinsma R, Lohkamp B, Ito T, Abeling NG, Saito K, Eto K, Smitka M, Engvall M, Zhang C, Xu W, Zoetekouw L, Hennekam RC. ss-ureidopropionase deficiency: phenotype, genotype and protein structural consequences in 16 patients. Biochim Biophys Acta. 2012 Jul;1822(7):1096-108. doi: 10.1016/j.bbadis.2012.04.001. Epub 2012 Apr 14. Citation on PubMed
- van Kuilenburg AB, Meinsma R, Assman B, Hoffman GF, Voit T, Ribes A, Lorente I, Busch R, Mayatepek E, Abeling NG, Wevers RA, Rutsch F, van Gennip AH. Genetic analysis of the first 4 patients with beta-ureidopropionase deficiency. Nucleosides Nucleotides Nucleic Acids. 2006;25(9-11):1093-8. doi: 10.1080/15257770600956870. Citation on PubMed
- van Kuilenburg AB, Meinsma R, Beke E, Assmann B, Ribes A, Lorente I, Busch R, Mayatepek E, Abeling NG, van Cruchten A, Stroomer AE, van Lenthe H, Zoetekouw L, Kulik W, Hoffmann GF, Voit T, Wevers RA, Rutsch F, van Gennip AH. beta-Ureidopropionase deficiency: an inborn error of pyrimidine degradation associated with neurological abnormalities. Hum Mol Genet. 2004 Nov 15;13(22):2793-801. doi: 10.1093/hmg/ddh303. Epub 2004 Sep 22. Citation on PubMed