Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
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Drug
Enzyme
Compound
Query: UMLS:C0036341 (
schizophrenia
)
60,220
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
G72 is one of the most widely tested genes for association with
schizophrenia
. As G72 activates the
D-amino acid oxidase
(
DAO
), G72 is termed D-amino acid oxidase activator (DAOA). The aim of this study is to investigate the association between G72 and
schizophrenia
in a Japanese population, using the largest sample size to date (1774 patients with
schizophrenia
and 2092 healthy controls). We examined eight single nucleotide polymorphisms (SNPs), which had been associated with
schizophrenia
in previous studies. We found nominal evidence for association of alleles, M22/rs778293, M23/rs3918342 and M24/rs1421292, and the genotype of M22/rs778293 with
schizophrenia
, although there was no association of allele or genotype in the other five SNPs. We also found nominal haplotypic association, including M15/rs2391191 and M19/rs778294 with
schizophrenia
. However, these associations were no longer positive after correction for multiple testing. We conclude that G72 might not play a major role in the risk for
schizophrenia
in the Japanese population.
...
PMID:Association study of the G72 gene with schizophrenia in a Japanese population: a multicenter study. 1923 67
In the brain, the human flavoprotein
D-amino acid oxidase
(hDAAO) is involved in the degradation of the gliotransmitter D-serine, an important modulator of NMDA-receptor-mediated neurotransmission; an increase in hDAAO activity (that yields a decrease in D-serine concentration) was recently proposed to be among the molecular mechanisms leading to the onset of
schizophrenia
susceptibility. This human flavoenzyme is a stable homodimer (even in the apoprotein form) that distinguishes from known D-amino acid oxidases because it shows the weakest interaction with the flavin cofactor in the free form. Instead, cofactor binding is significantly tighter in the presence of an active site ligand. In order to understand how hDAAO activity is modulated, we investigated the FAD binding process to the apoprotein moiety and compared the folding and stability properties of the holoenzyme and the apoprotein forms. The apoprotein of hDAAO can be distinguished from the holoenzyme form by the more "open" tertiary structure, higher protein fluorescence, larger exposure of hydrophobic surfaces, and higher sensitivity to proteolysis. Interestingly, the FAD binding only slightly increases the stability of hDAAO to denaturation by urea or temperature. Taken together, these results indicate that the weak cofactor binding is not related to protein (de)stabilization or oligomerization (as instead observed for the homologous enzyme from yeast) but rather should represent a means of modulating the activity of hDAAO. We propose that the absence in vivo of an active site ligand/substrate weakens the cofactor binding, yielding the inactive apoprotein form and thus avoiding excessive D-serine degradation.
...
PMID:Relevance of weak flavin binding in human D-amino acid oxidase. 1930 36
Human
D-amino acid oxidase
(hDAAO) is a flavoprotein that plays a key role in the pathophysiology of
schizophrenia
. So far, the biochemical characterization of this enzyme has been hampered by the difficulty of expressing it in a common heterologous host such as Escherichia coli. Increasing amounts of recombinant hDAAO are indeed required for the investigation of its structure-function relationships and for the screening of new inhibitors to be used in the treatment of
schizophrenia
. A recombinant hDAAO has been over-expressed in BL21(DE3)Star E. coli cells. By alternating screenings of medium components at flask level and investigating physiological parameters in 2L controlled batch fermentations, an improved, robust and scalable microbial process was set up giving almost a 40- and 4-fold improvement in volumetric productivity and specific activity, respectively. Under these conditions approximately 770 U/L culture hDAAO with a specific activity of approximately 0.4 U/mg protein and a specific productivity of 24.9 U/g biomass were produced. Optimization of medium ingredients, of the time and the amount of inducer's addition, pH control at the moment of induction and harvest, low mechanical shear stress regime during recombinant protein production, represent the factors concurring to achieve the reported expression level. Notably, this expression level is higher than any previously described production of hDAAOs. A yield of 100 mg of pure hDAAO/L culture thus became available in comparison to the 1-10 mg/L previously reported.
...
PMID:Optimization of human D-amino acid oxidase expression in Escherichia coli. 1949 70
Antipsychotics, the drugs used currently for the treatment of
schizophrenia
, produce their therapeutic effects via the blockade of dopamine receptors. These compounds are, however, limited in their therapeutic efficacy and have side effect liabilities that also limit their use. Agents that produce antipsychotic effects by enhancing NMDA receptor function represent a viable alternative to dopamine antagonists. D-serine, is the prototype of this approach acting as a positive allosteric modulator of the NMDA receptor to enhance antipsychotic efficacy in the clinic. A newer approach to modulating NMDA receptor function, identified by gene association studies, is pLG72/DAOA (D-amino acid oxidase activator) a peptide that modulates
D-amino acid oxidase
(
DAAO
) activity, increasing endogenous levels of D-serine. While the initial association of DAOA with
schizophrenia
and its functional effects on
DAAO
activity have not been replicated, its identification has led to the development of several
DAAO
inhibitors, e.g., AS057278, CBIO and Compound 8, that are active in animal models of antipsychotic action. The complications in validating the G72 association with schizoprenia highlight the inherent challenges in translating gene-based, disease-related associations to drug discovery targets.
...
PMID:Commentary: genome-based CNS drug discovery: D-amino acid oxidase (DAAO) as a novel target for antipsychotic medications: progress and challenges. 1959 8
Reduced function of the N-methyl-d-aspartate receptor (NMDAR) has been implicated in the pathophysiology of
schizophrenia
. The NMDAR contains a glycine binding site in its NR1 subunit that may be a useful target for the treatment of
schizophrenia
. In this study, we assessed the therapeutic potential of long-term increases in the brain levels of the endogenous NMDAR glycine site agonist D-serine, through the genetic inactivation of its catabolic enzyme
D-amino acid oxidase
(
DAO
) in mice. The effects of eliminating
DAO
function were investigated in mice that display
schizophrenia
-related behavioral deficits due to a mutation (Grin 1(D481N)) in the NR1 subunit that results in a reduction in NMDAR glycine affinity. Grin 1(D481N) mice show deficits in sociability, prolonged latent inhibition, enhanced startle reactivity and impaired spatial memory. The hypofunctional Dao 1(G181R) mutation elevated brain levels of D-serine, but alone it did not affect performance in the behavioral measures. Compared to animals with only the Grin 1(D481N) mutation, mice with both the Dao1(G181R) and Grin 1(D481N) mutations displayed an improvement in social approach and spatial memory retention, as well as a reversal of abnormally persistent latent inhibition and a partial normalization of startle responses. Thus, an increased level of D-serine resulting from decreased catalysis corrected the performance of mice with deficient NMDAR glycine site activation in behavioral tasks relevant to the negative and cognitive symptoms of
schizophrenia
. Diminished
DAO
activity and elevations in D-serine may serve as an effective therapeutic intervention for the treatment of psychiatric symptoms.
...
PMID:Genetic loss of D-amino acid oxidase activity reverses schizophrenia-like phenotypes in mice. 1975 94
D-amino acid oxidase
(
DAO
) is a flavoenzyme that metabolizes certain D-amino acids, notably the endogenous N-methyl D-aspartate receptor (NMDAR) co-agonist, D-serine. As such, it has the potential to modulate the function of NMDAR and to contribute to the widely hypothesized involvement of NMDAR signalling in
schizophrenia
. Three lines of evidence now provide support for this possibility:
DAO
shows genetic associations with the disorder in several, although not all, studies; the expression and activity of
DAO
are increased in
schizophrenia
; and
DAO
inactivation in rodents produces behavioural and biochemical effects, suggestive of potential therapeutic benefits. However, several key issues remain unclear. These include the regional, cellular and subcellular localization of
DAO
, the physiological importance of
DAO
and its substrates other than D-serine, as well as the causes and consequences of elevated
DAO
in
schizophrenia
. Herein, we critically review the neurobiology of
DAO
, its involvement in
schizophrenia
, and the therapeutic value of
DAO
inhibition. This review also highlights issues that have a broader relevance beyond
DAO
itself: how should we weigh up convergent and cumulatively impressive, but individually inconclusive, pieces of evidence regarding the role that a given gene may have in the aetiology, pathophysiology and pharmacotherapy of schizophrenia?
...
PMID:The neurobiology of D-amino acid oxidase and its involvement in schizophrenia. 1978 63
D-serine is an endogenous N-methyl-D-aspartate (NMDA) receptor coagonist. It is synthesized from L-serine by serine racemase (SRR), but many aspects of its metabolism remain unclear, especially in the forebrain, which lacks active
D-amino acid oxidase
(
DAO
), the major D-serine degradative enzyme. Candidate mechanisms include SRR operating in alpha,beta-eliminase mode (converting D-serine to pyruvate) and regulation by serine transport, in which the alanine-serine-cysteine transporter ASCT2 is implicated. Here we report studies in C6 glioma cells, which "simulate" the forebrain, in that the cells express SRR and ASCT2 but lack
DAO
activity. We measured D-serine, ASCT2, SRR, and
DAO
expression and
DAO
activity in two situations: after incubation of cells for 48 hr with serine isomers and after increased or decreased SRR expression by transfection and RNA interference, respectively. Incubation with serine enantiomers decreased [(3)H]D-serine uptake and ASCT2 mRNA and increased SRR immunoreactivity but did not alter
DAO
immunoreactivity, and
DAO
activity remained undetectable. SRR overexpression increased D-serine and pyruvate and decreased [(3)H]D-serine uptake and ASCT2 mRNA but did not affect
DAO
. SRR knockdown did not alter any of the parameters. Our data suggest that D-serine transport mediated by ASCT2 contributes prominently to D-serine homeostasis when
DAO
activity is absent. The factors regulating D-serine are important for understanding normal NMDA receptor function and because D-serine, along with
DAO
and SRR, is implicated in the pathogenesis and treatment of
schizophrenia
.
...
PMID:D-Serine metabolism in C6 glioma cells: Involvement of alanine-serine-cysteine transporter (ASCT2) and serine racemase (SRR) but not D-amino acid oxidase (DAO). 2009 74
The gene encoding
D-amino acid oxidase
(
DAO
), which acts as a receptor for the
schizophrenia
-associated neurotransmitter, N-methyl-D-aspartate (NMDA), is regarded as a potential candidate gene for
schizophrenia
. However, the potential association of the
DAO
gene with
schizophrenia
has been the subject of some debate. Here, we tested three single nucleotide polymorphisms (SNPs) of
DAO
in a group of Korean
schizophrenia
patients, and found no significant association in the overall study subjects. Interestingly, however, we found gender-specific differences in allele distributions, with SNP rs2070586 appearing to act as a risk allele in female
schizophrenia
patients, but as a protective allele in males. Our data support the hypothesis that
DAO
plays a role in
schizophrenia
, possibly in a gender-dependent manner.
...
PMID:Sex-different association of DAO with schizophrenia in Koreans. 2048 68
In human brain the flavoprotein
D-amino acid oxidase
(hDAAO) is responsible for the degradation of the neuromodulator D-serine, an important effector of NMDA-receptor mediated neurotransmission. Experimental evidence supports the concept that D-serine concentration increase by hDAAO inhibition may represent a valuable therapeutic approach to improve the symptoms in
schizophrenia
patients. This study investigated the effects on hDAAO conformation and stability of the substrate D-serine (or of the pseudo-substrate trifluoro-D-alanine), the FAD cofactor, and two inhibitors (benzoate, a classical substrate-competitive inhibitor and the drug chlorpromazine (CPZ), which competes with the cofactor). We demonstrated that all these compounds do not alter the interaction of hDAAO with its physiological partner pLG72. The ligands used affect the tertiary structure of hDAAO differently: benzoate or trifluoro-D-alanine binding increases the amount of the holoenzyme form in solution and stabilizes the flavoprotein, while CPZ binding favors a protein conformation resembling that of the apoprotein, which is more sensitive to degradation. Interestingly, the apoprotein form of hDAAO binds the substrate D-serine: this interaction increases FAD binding thus increasing the amount of active holoenzyme in solution. Benzoate and CPZ similarly modify the short-term cellular D-serine concentration but affect the cellular concentration of hDAAO differently. In conclusion, the different alteration of hDAAO conformation and stability by the ligands used represents a further parameter to take into consideration during the development of new drugs to cope
schizophrenia
.
...
PMID:Effect of ligand binding on human D-amino acid oxidase: implications for the development of new drugs for schizophrenia treatment. 2052 34
D-amino acid oxidase
(
DAO
) catalyzes oxidative deamination of D-amino acids. Since D-amino acids are considered to be rare in eukaryotes, physiological function of this enzyme has been enigmatic for a long time. Mutant mice lacking
DAO
were found, and their strain was established. The urine of the mutant mice contained large amounts of D-amino acids. D-Amino acids were also present in their organs and blood. The origin of these D-amino acids was pursued. The results indicate that one of the physiological functions of
DAO
is the metabolism of D-amino acids of internal and external origin. A large amount of D-serine is shown to exist in the brain of mammals. It binds to the coagonist-binding site of N-methyl-D-aspartate (NMDA) subtype of glutamate receptors and enhances the neurotransmission.
DAO
metabolizes this D-serine and, therefore, modulates neurotransmission. Mutant mice displayed phenotypes resulting from the enhanced NMDA receptor function. Recent studies have shown that
DAO
is associated with
schizophrenia
. Mutant mice were resistant to the drugs which act on NMDA receptors and elicit
schizophrenia
-like symptoms. Recently, mutant rats lacking
DAO
have also been found. They were free from D-serine-induced nephrotoxicity, indicating involvement of
DAO
in this toxicity. The mutant mice and rats lacking
DAO
would be useful for the elucidation of the physiological functions of
DAO
and the etiology of neuronal diseases associated with
DAO
.
...
PMID:Mutant mice and rats lacking D-amino acid oxidase. 2056 63
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