Aromatic L-amino acid decarboxylase
|PDB structures||RCSB PDB PDBe PDBsum|
|Gene Ontology||AmiGO / EGO|
|DOPA decarboxylase (aromatic L-amino acid decarboxylase)|
|Locus||Chr. 7 p11|
- L-DOPA to dopamine - a neurotransmitter
- 5-HTP to serotonin (5-HT) - a neurotransmitter
- L-histidine to histamine - a neurotransmitter
- phenylalanine to phenethylamine - a trace amine neuromodulator
- L-tyrosine to tyramine - a trace amine neuromodulator
- tryptophan to tryptamine - a trace amine neuromodulator
The catalytic mechanism
AADC requires pyridoxal-5'-phosphate (PLP) as a cofactor and belongs to the group II of pyridoxal-dependent decarboxylases. Histidine Decarboxylase also belongs to this group and it has been proposed that the catalytic mechanism should be very similar for these two enzymes.
As a rate-limiting step
In normal dopamine and serotonin (5-HT) neurotransmitter synthesis, AADC is not the rate-limiting step in either reaction. However, AADC becomes the rate-limiting step of dopamine synthesis in patients treated with L-DOPA (such as in Parkinson's disease), and the rate-limiting step of serotonin synthesis in people treated with 5-HTP (such as in mild depression or dysthymia). AADC is inhibited by carbidopa outside of the blood brain barrier to inhibit the premature conversion of L-DOPA to dopamine in the treatment of Parkinson's.
In humans, AADC is also the rate-limiting enzyme in the formation of trace amines. Deficiency of AADC is associated with various symptoms as severe developmental delay, oculogyric crises and autonomic dysfunction. The molecular and clinical spectrum of AAAC deficiency is heterogeneous. The first case of AADC deficiency was described in twin brothers 1990. Patients can be treated with dopamine agonists, MAO inhibitors, and pyridoxine (vitamin B6). Clinical phenotype and response to treatment is variable and the long-term and functional outcome is unknown. To provide a basis for improving the understanding of the epidemiology, genotype/phenotype correlation and outcome of these diseases their impact on the quality of life of patients, and for evaluating diagnostic and therapeutic strategies a patient registry was established by the noncommercial International Working Group on Neurotransmitter Related Disorders (iNTD).
The gene encoding the enzyme is referred to as DDC and located on chromosome 7 in humans. Single nucleotide polymorphisms and other gene variations have been investigated in relation to neuropsychiatric disorders, e.g., a one-base pair deletion at –601 and a four-base pair deletion at 722–725 in exon 1 in relation to bipolar disorder and autism. No direct correlation between gene variation and autism was found.
- Aromatic L-amino acid decarboxylase inhibitor, a class of anti-Parkinson drugs
- Aromatic amino acids
- Histidine decarboxylase
- PMID 11685243. doi:10.1038/nsb1101-963.; Burkhard P, Dominici P, Borri-Voltattorni C, Jansonius JN, Malashkevich VN (Nov 2001). "Structural insight into Parkinson's disease treatment from drug-inhibited DOPA decarboxylase". Nature Structural Biology. 8 (11): 963–7.
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- Wang X, Li J, Dong G, Yue J (February 2014). "The endogenous substrates of brain CYP2D". Eur. J. Pharmacol. 724: 211–218. PMID 24374199. doi:10.1016/j.ejphar.2013.12.025.
The highest level of brain CYP2D activity was found in the substantia nigra ... The in vitro and in vivo studies have shown the contribution of the alternative CYP2D-mediated dopamine synthesis to the concentration of this neurotransmitter although the classic biosynthetic route to dopamine from tyrosine is active. ... Tyramine levels are especially high in the basal ganglia and limbic system, which are thought to be related to individual behavior and emotion (Yu et al., 2003c). ... Rat CYP2D isoforms (2D2/2D4/2D18) are less efficient than human CYP2D6 for the generation of dopamine from p-tyramine. The Km values of the CYP2D isoforms are as follows: CYP2D6 (87–121 μm) ≈ CYP2D2 ≈ CYP2D18 > CYP2D4 (256 μm) for m-tyramine and CYP2D4 (433 μm) > CYP2D2 ≈ CYP2D6 > CYP2D18 (688 μm) for p-tyramine
- Fernandes, Henrique Silva; Ramos, Maria João; Cerqueira, Nuno M. F. S. A. "The Catalytic Mechanism of the Pyridoxal-5′-phosphate-Dependent Enzyme, Histidine Decarboxylase: A Computational Study". Chemistry – A European Journal: n/a–n/a. ISSN 1521-3765. doi:10.1002/chem.201701375.
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- Børglum AD, Bruun TG, Kjeldsen TE, Ewald H, Mors O, Kirov G, Russ C, Freeman B, Collier DA, Kruse TA (Nov 1999). "Two novel variants in the DOPA decarboxylase gene: association with bipolar affective disorder". Molecular Psychiatry. 4 (6): 545–51. PMID 10578236. doi:10.1038/sj.mp.4000559.
- Lauritsen MB, Børglum AD, Betancur C, Philippe A, Kruse TA, Leboyer M, Ewald H (May 2002). "Investigation of two variants in the DOPA decarboxylase gene in patients with autism". American Journal of Medical Genetics. 114 (4): 466–70. PMID 11992572. doi:10.1002/ajmg.10379.