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Enzyme
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Query: HUMANGGP:001306 (
HPE2
)
8
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The peroxidase associated with prostaglandin cyclooxygenase in ram seminal vesicle microsomes will utilize a wide variety of hydroperoxides and reducing substrates. One such reducing substrate, sulindac sulfide (cis-5-fluoro-2-methyl-1-[p-(methylthio)benzylidenyl]indene-3-acetic acid), inhibits the oxygenase, stimulates the peroxidase, and is oxidized to its analogous sulfoxide by the peroxidase. The peroxidase-catalyzed transfer of oxygen atoms from 15-hydroperoxyprostaglandin E2 (15-HPE2) to sulindac sulfide was examined using [18O]15-
HPE2
which was prepared enzymatically and analyzed mass spectrometrically. The sulfoxide resulting from sulindac sulfide oxidation was also analyzed mass spectrometrically and found to possess an oxygen atom arising exclusively from the 15-
HPE2
. Since sulindac sulfide inhibits the oxygenase activity of this enzyme (ID50 approximately equal to 0.2 microM), it seemed possible that the oxygen atom was transferred while the sulfide was bound to this site. However, indomethacin, an inhibitor of the oxygenase with no effect on the peroxidase, did not alter the stoichiometry of sulindac sulfide oxidation, precluding this possibility. These findings are discussed in the context of identifying the nature of the actual oxidant and distinguishing between the oxidation mechanisms of various peroxidases and between sulindac sulfide and other reducing substrates for these enzymes.
...
PMID:Mechanism of oxygen transfer by prostaglandin hydroperoxidase. 735 13
Holoprosencephaly (HPE) is a common developmental defect involving the brain and face in humans. Cytogenetic deletions in patients with HPE have localized one of the HPE genes (
HPE2
) to the chromosomal region 2p21. Here we report the molecular genetic characterization of nine HPE patients with cytogenetic deletions or translocations involving 2p21. We have determined the parental origin of the deleted chromosomes and defined the
HPE2
critical region between D2S119 and D2S88/D2S391. As a first step towards cloning the
HPE2
gene which is crucial for normal brain development we have constructed a YAC contig which spans the smallest region of deletion overlap. Several of these YACs could be identified which span three different 2p21 breakpoints in HPE patients. These YACs narrow the
HPE2
critical region to less than 1 Mb and are now being further analyzed to identify the gene causing holoprosencephaly on chromosome 2.
...
PMID:Molecular characterization of breakpoints in patients with holoprosencephaly and definition of the HPE2 critical region 2p21. 882 78
Holoprosencephaly (HPE) is a common, severe malformation of the brain that involves separation of the central nervous system into left and right halves. Mild HPE can consist of signs such as a single central incisor, hypotelorism, microcephaly, or other craniofacial findings that can be present with or without associated brain malformations. The aetiology of HPE is extremely heterogeneous, with the proposed participation of a minimum of 12 HPE-associated genetic loci as well as the causal involvement of specific teratogens acting at the earliest stages of neurulation. The
HPE2
locus was recently characterized as a 1-Mb interval on human chromosome 2p21 that contained a gene associated with HPE. A minimal critical region was defined by a set of six overlapping deletions and three clustered translocations in HPE patients. We describe here the isolation and characterization of the human homeobox-containing SIX3 gene from the
HPE2
minimal critical region (MCR). We show that at least 2 of the HPE-associated translocation breakpoints in 2p21 are less than 200 kb from the 5' end of SIX3. Mutational analysis has identified four different mutations in the homeodomain of SIX3 that are predicted to interfere with transcriptional activation and are associated with HPE. We propose that SIX3 is the
HPE2
gene, essential for the development of the anterior neural plate and eye in humans.
...
PMID:Mutations in the homeodomain of the human SIX3 gene cause holoprosencephaly. 1036 66
Holoprosencephaly (HPE) is a severe brain malformation which results from incomplete cleavage of the forebrain during early embryogenesis. The aetiology of HPE is very heterogeneous. Among the genetic factors, SIX3, which is considered to be the functional orthologue of Drosophila genes sine oculis (so) and optix, has been found to be mutated in the homeodomain, in some patients with HPE (
HPE2
on chromosome 2p21). We report a new HPE family, presenting a wide spectrum of clinical features, ranging from cyclopia to hypotelorism, in which a mutation was found for the first time in the SIX domain of SIX3: a GG insertion creates a frameshift leading to a nonsense mutation downstream in the homeodomain region.
...
PMID:A new mutation in the six-domain of SIX3 gene causes holoprosencephaly. 1103 82
Hypericum perforatum extracts (HPE) inhibit ethanol intake in rats. Hypericin and hyperforin have been proposed as major active principles of HPE. The present study compared the effect on ethanol intake in alcohol-preferring rats of two Hypericum perforatum extracts: a methanolic extract containing 0.3% hypericin and 3.8% hyperforin (HPE1) and a CO2 extract (
HPE2
) with 24.33% hyperforin and very low hypericin content. Freely feeding and drinking rats were offered 10% ethanol 2 h/day and HPE were given intragastrically 1 h before access to ethanol. Both extracts dose-dependently reduced ethanol intake,
HPE2
being about eight times more potent than HPE1. Food and water intakes were not affected by doses that reduced ethanol intake.
HPE2
, unlike HPE1, reduced blood-alcohol levels (BAL) at doses of > or = 31.2 mg/kg, whereas the dose of 15.6 mg/kg, which reduced ethanol intake, did not significantly modify BAL; blood-acetaldehyde levels were never increased. As previously observed for HPE1, intracerebroventricular pretreatment with 5,7-dihydroxytryptamine (150 microg/rat) did not affect attenuation of ethanol intake induced by
HPE2
, but reduced its effect in the forced swimming test (FST). Intraperitoneal pretreatment with the sigma-1 receptor antagonist NE-100 (0.25 mg/kg) did not affect inhibition of ethanol intake induced by HPE1 (250 mg/kg) or
HPE2
(125 mg/kg), but abolished the effect of both extracts in the FST. In conclusion, the present results indicate that
HPE2
inhibits ethanol intake more potently than HPE1; the higher potency of
HPE2
parallels the hyperforin content, suggesting that hyperforin may have an important role in reducing ethanol intake. Moreover, different neurochemical mechanisms are apparently responsible for the reduction of ethanol intake and for the antidepressant-like effect of HPE.
...
PMID:Effects of a methanolic extract and a hyperforin-enriched CO2 extract of Hypericum perforatum on alcohol intake in rats. 1137 55
Examples of five classes of diamines were synthesized and tested for antifungal activity. Two classes, the bis(cyclohexylmethyl)diamines and the bis(benzyl)diamines, were most effective in reducing mycelial growth of the oat leaf stripe pathogen Pyrenophora avenae Ito & Kuribay when used at a concentration of 250microM. The bis(benzyl)diamine BBD5 and the hydroxypyridylethylamine
HPE2
both reduced powdery mildew infection of barley seedlings by greater than 70% when applied as a post-inoculation spray at 250 microM. Several of the compounds examined, and especially BBD5 and
HPE2
, reduced the formation of spermidine but greatly increased spermine levels. These changes in P avenae treated with BBD5 and
HPE2
were also accompanied by greatly elevated activity of polyamine oxidase. It is suggested that the antifungal activity of these compounds may be related to the accumulation of spermine and specifically to its toxicity.
...
PMID:Synthesis and antifungal activity of five classes of diamines. 1497 80
Holoprosencephaly (HPE) is a relatively common brain malformation resulting in an incomplete separation of the two cerebral hemispheres. A number of mutations in different genes have been linked to this malformation, including three missense mutations in the homeodomain of the transcription factor SIX3. In this study, we investigated the functional consequences of these SIX3 mutations with respect to the ability of the protein to interact with and stimulate the transcriptional activity of the nuclear receptor NOR1 (NR4A3). Using glutathione S-transferase fusion protein pull-down assays and transient cotransfections of Neuro-2a cells with expression and reporter vectors, we found that one mutation, c.676C>G (p.L226V), does not alter the properties of SIX3 toward NOR1. Another mutation, c.749T>C (p.V250A), results in the production of a highly unstable protein in Neuro-2a cells. The third mutation, c.770G>C (p.R257P), results in a mutant SIX3 protein that no longer interacts with NOR1 in vivo. These observations suggest that different SIX3 mutations in
HPE2
may affect different signaling pathways, and that one of these pathways may involve the nuclear receptor NOR1.
...
PMID:Functional characterization of SIX3 homeodomain mutations in holoprosencephaly: interaction with the nuclear receptor NR4A3/NOR1. 1552 51
Mouse lines selectively bred for high voluntary wheel-running behavior are helpful models for uncovering gene networks associated with increased motivation for physical activity and other reward-dependent behaviors. The fact that multiple brain regions are hypothesized to contribute to distinct behavior components necessitates the simultaneous study of these regions. The goals of this study were to identify brain-region dependent and independent gene expression patterns, regulators, and networks associated with increased voluntary wheel-running behavior. The cerebellum and striatum from a high voluntary running line and a non-selected control line were compared. Neuropeptide genes annotated to reward-dependent processes including neuropeptide S receptor 1 (Npsr1), neuropeptide Y (Npy), and proprotein convertase subtilisin/kexin type 9 (Pcsk9), and genes implicated in motor coordination including vitamin D receptor (Vdr) and keratin, type I cytoskeletal 25 (Krt25) were among the genes exhibiting activity line-by-region interaction effects. Genes annotated to the Parkinson pathway presented consistent line patterns, albeit at different orders of magnitude between brain regions, suggesting some parallel events in response to selection for high voluntary activity. The comparison of gene networks between brain regions highlighted genes including transcription factor AP-2-delta (Tfap2d), distal-less homeobox 5 gene (Dlx5) and
sine oculis homeobox homolog 3
(
Six3
) that exhibited line differential expression in one brain region and are associated with reward-dependent behaviors. Transcription factors including En2, Stat6 and Eomes predominated among regulators of genes that differed in expression between lines. Results from the simultaneous study of striatum and cerebellum confirm the necessity to study molecular mechanisms associated with voluntary activity and reward-dependent behaviors in consideration of brain region dependencies.
...
PMID:Brain region-dependent gene networks associated with selective breeding for increased voluntary wheel-running behavior. 3007 Oct 7