EC:3.2.1.108 - FACTA Search

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Query: EC:3.2.1.108 (lactase)
2,133 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A method for measuring brush border membrane enzymes from small intestinal biopsies by crossed immunoelectrophoresis is presented. The use of a brush border specific antiserum made isolation of the brush border membrane before analysis unnecessary. This prevented loss of material which, together with inactivation of enzymes, was a limiting factor in previous studies of brush border enzymes from peroral biopsies. In 58 biopsies from patients without gastrointestinal disorders a close correlation between antigenic activity and corresponding enzymatic activity was shown for the following enzymes: sucrase-isomaltase (EC 3.2.1.48-EC 3.2.1.10), lactase-phlorizin hydrolase (EC 3.2.1.23-EC 3.2.1.62), microvillus aminopeptidase (microsomal, EC 3.4.11.2) and dipeptidyl peptidase IV (EC 3.4.14.X). The immunoelectrophoretic patterns of intestinal mucosa near the ligament of Treitz, and in jejunum and ileum were established. The method presented is thought to be of value in further studies of the molecular basis of brush border diseases.
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PMID:Immunoelectrophoretic studies on human small intestinal brush border proteins. A quantitative study of brush border enzymes from single small intestinal biopsies. 10 36

We have determined the sequence of a 2784 bp rat genomic fragment originating from the 5' region of the gene coding for intestinal lactase-phlorizin hydrolase. The fragment overlaps the gene exon 1, part of the intron 1 and the 5'-upstream segment including a TATA-like box. Over 155 bp, the upstream segment shows 72% similarity with the corresponding sequence in human. Far upstream, the rat sequence exhibits a Calcium Responsive Element and putative binding sites for AP2, C/EBP, and CTF/NF. The intron contains a T-rich sequence that may cause DNA helix distortion.
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PMID:The rat LPH gene 5' region: comparative structure with the human gene. 133 33

Lactase-phlorizin hydrolase was isolated by immunoadsorption chromatography from rabbit brush-border membrane vesicles. Inactivation of the enzyme with [3H]conduritol-B-epoxide, a covalent active site-directed inhibitor, labeled glutamates at positions 1271 and 1747. Glu1271 was assigned to lactase, Glu1747 to phlorizin hydrolase activity. In contrast, the nucleophiles in the active sites of sucrase-isomaltase are aspartates (Asp505 and Asp1394). Asp505 is a part of the isomaltase active site and is localized on the larger subunit, which carries the membrane anchor also, while Asp1394 is a part of the active of sucrase. Alignment of these 2 nucleophilic Glu residues in lactase-phlorizin hydrolase and of their flanking regions with published sequences of several other beta-glycosidases allows the classification of the configuration retaining glycosidases into two major families: the "Asp" and the "Glu" glycosidases, depending on the carboxylate presumed to interact with the putative oxocarbonium ion in the transition state. We offer some predictions as to the Glu acting as the nucleophile in the active site of some glycosidases. By hydrophobic photolabeling, the membrane-spanning domain of lactase-phlorizin hydrolase was directly localized in the carboxyl-terminal region thus confirming this enzyme as a monotopic type I protein (i.e. with Nout-Cin orientation) of the brush-border membranes. A simplified version of the Me2+ precipitation method to efficiently and simply prepare brush-border membrane vesicles is also reported.
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PMID:Location of the two catalytic sites in intestinal lactase-phlorizin hydrolase. Comparison with sucrase-isomaltase and with other glycosidases, the membrane anchor of lactase-phlorizin hydrolase. 138 57

Lactase-phlorizin hydrolase is a disaccharidase present in the small intestine of mammals. This enzyme has two active sites, one being responsible for the hydrolysis of lactose. Lactase activity is thought to be selective towards glycosides with a hydrophilic aglycon. In this work, we report a systematic study on the importance of each hydroxyl group in the substrate molecule for lactase activity. For this purpose, all of the monodeoxy derivatives of methyl beta-lactoside and other lactose analogues are studied as lactase substrates. With respect to the galactose moiety, it is shown here that HO-3' and HO-2' are necessary for hydrolysis of the substrates by lactase. Using these chemically modified substrates, it has been confirmed that lactase does not behave as a typical beta-galactosidase, since it does not show an absolute selectivity with respect to substitution and stereochemistry at C4' in the galactose moiety of the substrate. However, the glucose moiety, in particular the HO-6, appears to be important for substrate hydrolysis, although none of the hydroxyl groups seemed to be essential. In order to differentiate both activities of the enzyme, a new assay for the phlorizin-hydrolase activity has also been developed.
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PMID:Substrate specificity of small-intestinal lactase. Assessment of the role of the substrate hydroxyl groups. 139 15

The promoter of the pig lactase-phlorizin hydrolase was cloned and showed to be functional in the human intestinal cell line Caco2. The proximal promoter was analyzed for binding of nuclear proteins from small intestine and liver. DNase I footprinting and electrophoretic mobility shift assays show, that an intestinal nuclear factor (NF-LPH1) binds to a sequence (-40 to -54) located close to the TATA-box. Enterocytes from newborn pigs with high lactase activity contain high amounts of NF-LPH1, whereas enterocytes from adult pigs with low lactase activity contain low amounts of NF-LPH1. The liver does not contain lactase activity, and NF-LPH1 is not present in liver nuclear extracts in detectable amounts. This indicates that NF-LPH1 is involved in the decline of lactase at weaning and may be of importance for the molecular explanation of hypolactasia in humans. It was demonstrated by transfection of two different promoter-reporter gene constructs into Caco2 cells, that there are additional cis-element(s) in the region -142 to approximately -980, which are important for the transcription of the lactase-phlorizin hydrolase gene.
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PMID:A novel intestinal trans-factor (NF-LPH1) interacts with the lactase-phlorizin hydrolase promoter and co-varies with the enzymatic activity. 140 Mar 59

Lactase is synthesized as a high-mannose large precursor (200 kDa) which is subsequently complex-glycosylated (215 kDa) and split into the 150 kDa mature form. The regulatory mechanisms responsible for the decline of activity at weaning are not yet known. We have set up in vitro cultures of intestinal mucosa from suckling and adult rabbit and found that suckling and adult animals synthesize the same four forms of lactase-phlorizin hydrolase (LPH) but with a different distribution. In the proximal adult small intestine there is very little 180 kDa form, which is most probably a product of the 215 kDa complex-glycosylated precursor. The 180 kDa form comprises a greater percentage of total LPH in the middle of the small intestine in adult and particularly in suckling rabbits. In the latter tissue this form is apparently more stable than in the adult tissue. Posttranscriptional control of lactase synthesis is therefore different in the various parts of the adult small intestine, and it is different in the suckling as compared to adult tissue.
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PMID:In vitro biosynthesis of lactase in preweaning and adult rabbit. 144 46

Maturation of human intestinal lactase-phlorizin hydrolase (LPH) requires that a precursor (pro-LPH) be proteolytically processed to the mature microvillus membrane enzyme (m-LPH). The subcellular site of this processing is unknown. Using low-temperature experiments and brefeldin A (BFA), intracellular transport was blocked in intestinal epithelial cells. In Caco-2 cells incubated at 18 degrees C, pro-LPH was complex-glycosylated but not cleaved, while at 20 degrees C small amounts of proteolytically processed LPH were observed. These data exclude a pre-Golgi proteolytic event. BFA completely blocked proteolytic maturation of LPH and lead to an aberrant form of pro-LPH in both Caco-2 cells and intestinal explants. Therefore, proteolytic processing of LPH is a post-Golgi event, occurring either in the trans-Golgi network, transport vesicles, or after insertion of pro-LPH into the microvillus membrane.
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PMID:Maturation of human lactase-phlorizin hydrolase. Proteolytic cleavage of precursor occurs after passage through the Golgi complex. 144 48

Maturation of lactase-phlorizin hydrolase (LPH) (EC 3.2.1.23-62) requires proteolytic processing of precursor (pro-LPH) to mature microvillus membrane enzyme (m-LPH). Subcellular site and function of this processing are unknown. We studied the processing and sorting of human LPH expressed permanently in MDCK cells. LPH was inserted into the apical membrane and small amounts were found basolateral. Of the LPH immunoprecipitated from the apical membrane, 42% was in the mature, i.e. proteoytically processed form; on the basolateral membrane it was 20%. Thus, LPH-processing occurs after sorting and is not necessary for surface expression.
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PMID:Proteolytic processing of human intestinal lactase-phlorizin hydrolase precursor is not a prerequisite for correct sorting in Madin Darby canine kidney (MDCK) cells. 146 52

The 225 kDa precursor of intestinal lactase-phlorizin hydrolase (LPH) consists of four tandemly-organized homologous domains flanked by a signal peptide at the N-end and by a transmembrane anchor at the C-end of the polypeptide chain. While the mature LPH of 130 kDa has already been shown to originate from the C-half of the precursor, no protein deriving from the N-half has been identified so far. Using monospecific antibodies raised against the mature LPH or against a recombinant protein containing the sequence of the N-end of the LPH precursor, we have searched for co-translated protein(s) of LPH in enterocytes and in the intestinal lumen of suckling rats. Since no additional protein to LPH was revealed by these antibodies, it is suggested that the polypeptide chain corresponding to the N-half of the LPH precursor undergoes rapid turnover.
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PMID:Do co-translated product(s) of lactase-phlorizin hydrolase accumulate in the rat intestine? 147 99

The maturational decline in lactase-phlorizin hydrolase (LPH) activity was studied in groups of young rats ranging from suckling to early post-weaned states. Associated maturational increases in sucrase-isomaltase (SI) and maltase-glucoamylase (MG) activities were also examined as a comparison. Over this time period changes in cellular concentrations of the three enzymes were observed, reflecting corresponding changes in enzyme activities. Synthesis patterns accompanying these maturational changes in concentration were examined using labelled leucine as a marker. Synthesis of LPH was found to be maintained at constant rates independent of the maturation-associated decline in its concentration, whereas the increases in cellular concentrations of SI and MG were due to accelerated synthesis of the enzyme. Turnover of LPH, based on both the fractional synthesis rate and the disappearance rate of labelled leucine from prelabelled LPH pools, was increased in a quantitatively similar way to the decline in LPH concentration. These findings are consistent with our earlier proposal that the maturational decline of LPH occurs because of accelerated turnover, without a decrease in its rate of synthesis.
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PMID:Mechanism of maturational decline of rat intestinal lactase-phlorizin hydrolase. 154 Jan 26

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