EC:3.4.21.4 - FACTA Search

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Query: EC:3.4.21.4 (trypsin)
42,187 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Lactase-phlorizin hydrolase (LPH) (EC 3.2.1.23/62) is a major intestinal microvillar membrane glycoprotein that digests lactose, the main carbohydrate of milk. To investigate structure/function relationships of LPH and to assess the impact of intracellular processing on the function of LPH and on its transport to the cell surface, we have expressed a full-length cDNA encoding LPH in mammalian COS-1 cells. Analysis of the expressed protein by immunoprecipitation with monoclonal anti-LPH antibodies and treatments with endo-beta-N-acetylglucosaminidase H and sodium dodecyl sulfate-polyacrylamide gel electrophoresis revealed two polypeptides with apparent molecular masses of 215 and 230 kDa, representing the mannose-rich (pro-LPHh) and complex (pro-LPHc) glycosylated forms of the precursor. By contrast to pro-LPH in human enterocytes, the expressed pro-LPH in COS-1 cells does not undergo intracellular proteolytic cleavage to generate a form similar to the mature enzyme of the brush-border membrane. Intracellular cleavage, however, is not essential for the molecule to acquire its enzymatic activity since pro-LPH in COS-1 cells is enzymatically as active as LPH isolated from intestinal brush-border membranes. Indirect immunofluorescent staining of transfected cells demonstrated that pro-LPH is expressed at the cell surface. This was further corroborated by the sensitivity of the complex glycosylated form (pro-LPHc) to trypsin in the medium. Our results provide the first conclusive evidence that pro-LPH is an enzymatically active molecule and that the intracellular proteolysis of pro-LPH is not essential for the generation of transport-competent forms of LPH.
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PMID:Expression of a full-length cDNA coding for human intestinal lactase-phlorizin hydrolase reveals an uncleaved, enzymatically active, and transport-competent protein. 190 19

The pro-region of intestinal lactase-phlorizin hydrolase (LPH alpha) has been proposed to be important for the correct folding of pro-LPH and mature LPH (LPH beta). In this communication, analysis of the catalytic function of the LPH alpha pro-region is presented. Expression of a cDNA encoding LPH alpha in COS-1 cells reveals a polypeptide that does not hydrolyse lactose. Likewise, no lactase activity is detected in LPH alpha purified from trypsin-treated pro-LPH. Mixing of LPH alpha and LPH beta does not lead to the activation of the latter. We conclude that LPH alpha does not contribute to the lactase activity despite the strong homologies with mature LPH beta. LPH alpha may play an important role as an intra-molecular chaperone.
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PMID:The pro-region of human intestinal lactase-phlorizin hydrolase is enzymatically inactive towards lactose. 762 35

Human lactase-phlorizin hydrolase (LPH), a brush border membrane hydrolase of the small intestine, is synthesized as a precursor molecule that undergoes proteolytic cleavage to yield mature LPH (LPHbeta) by a trypsin-like protease (Naim et al., 1987, 1991). Arg868-Ala869 has been previously proposed to be the putative cleavage site for this processing step. Site-directed mutagenesis of this monobasic site does not lead to the generation of an uncleaved proLPH species, which strongly suggests the existence of an additional cleavage site. Further analyses of LPH synthesized in different cell lines lend support to this hypothesis. Biosynthetic labeling of human intestinal biopsy samples in the presence of trypsin reveals an LPHbeta species that is slightly smaller than the intracellularly cleaved molecule. When the proLPH molecule is screened for potential cleavage sites, two dibasic pairs are revealed upstream of the N-terminal end of brush border LPH at Lys851-Arg852 and Arg830-Lys831. Treatment of proLPH with trypsin for different periods of time supports the idea of at least two cleavage steps, whereby Arg868-Ala869 represents the final cleavage site that generates LPHbeta. We propose that the initial cleavage of proLPH takes place intracellularly at a site further away from Arg868-Ala869, to generate LPHbeta initial; LPHbeta is subsequently cleaved extracellularly in the gut lumen, presumably by trypsin, at Arg868-Ala869 to mature brush border LPH (LPHbeta initial).
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PMID:Maturation of human intestinal lactase-phlorizin hydrolase: generation of the brush border form of the enzyme involves at least two proteolytic cleavage steps. 866 96

The cytosolic beta-glucosidase (EC 3.2.1.21) present in the livers of mammalian species is distinguished by its broad specificity for sugars and its preference for hydrophobic aglycones. We purified the cytosolic beta-glucosidase from guinea pig liver and sequenced 142 amino acid residues contained within 12 trypsin digest fragments. Using degenerate oligonucleotide primers deduced from the peptide sequences, a 622 bp cytosolic beta-glucosidase cDNA was amplified by reverse-transcriptase PCR, using total guinea pig liver RNA as template. The 'rapid amplification of cDNA ends (RACE)' method [Frohman (1993) Methods Enzymol. 218, 340-356] was used to synthesize the remaining segments of the full-length cDNA. The complete cDNA contained 1671 nucleotides with an open reading frame coding for 469 amino acid residues. The amino acid sequence deduced from the cDNA sequence included the amino acid sequences of all 12 trypsin digest fragments derived from the purified enzyme. Amino acid sequence analysis indicates that the guinea pig liver cytosolic beta-glucosidase is a Family 1 beta-glycosidase and that it is most closely related to mammalian lactase-phlorizin hydrolase. These results suggest that the cytosolic beta-glucosidase and lactase-phlorizin hydrolase diverged from a common evolutionary precursor.
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PMID:Primary structure of the cytosolic beta-glucosidase of guinea pig liver. 892 Sep 87

Human lactase-phlorizin hydrolase (EC 3.2.1.23/62) is a major disaccharidase in the microvillus membrane of small intestinal epithelial cells. The enzyme is synthesized as a single-chain precursor protein and undergoes proteolytic processing during maturation. We studied proteolytic processing of human lactase-phlorizin hydrolase in transfected COS-1, Caco-2, and MDCK cells using metabolic labeling, surface immunoprecipitation, protease sensitivity assays, and microsequencing. Furthermore, we generated mutated forms of the enzyme to alter potential proteolytic cleavage sites and expressed these in Caco-2 and COS-1 cells. Since the N-terminal amino acid of microvillus lactase-phlorizin hydrolase corresponds to Ala869 in the precursor protein, it has been speculated that processing occurs at position Arg868-Ala869. Substitution of Arg868 with isoleucine, lysine, or glutamic acid had no effect on the proteolytic processing of pro-LPH in Caco-2 cells. As in wild-type enzyme a processed 160-kDa form was generated. These data are not consistent with a primary proteolytic processing at position Arg868-Ala869. Using amino-terminal amino acid sequencing of this processed form isolated from stable transfected MDCK cells we identified the cleavage site at Arg734-Leu735. Treatment of pro-lactase-phlorizin hydrolase expressed in COS-1 and MDCK cells by trypsin yielded a 145-kDa form with an identical amino terminal as the mature microvillus enzyme isolated from intestinal mucosa (Ala869). These data provide unambiguous evidence of a two-step processing of human lactase-phlorizin hydrolase. The first cleavage occurs intracellularly after a dibasic site (Arg734-Leu735) and yields the 160-kDa intermediate form. In a second step the intermediate form inserted into the microvillus membrane is trimmed to the mature enzyme by luminal trypsin.
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PMID:Proteolytic processing of human lactase-phlorizin hydrolase is a two-step event: identification of the cleavage sites. 895 Oct 31

Polarized transport of proteins is contingent on the presence of specific protein structures or motifs that function as sorting signals. Our model protein to analyze and to identify such signals is that of lactase-phlorizin hydrolase (LPH), a strictly polarized brush border membrane protein of small intestinal epithelial cells. It is synthesized as a large pro-LPH precursor molecule, which is proteolytically processed to yield the mature brush border enzyme (LPHbeta). Pro-LPH as well as LPHbeta are correctly sorted to the brush border membrane. In this paper we examine the location of putative sorting signals in the pro-LPH molecule. Expression of a cDNA encoding the LPHbeta mature form in the absence of the LPHalpha species in Madin-Darby canine kidney (MDCK) cells reveal an LPHbeta molecule that is not as transport-competent as wild type pro-LPH. The proportion of complex glycosylated LPHbeta constitutes not more than 10% of the total synthesized protein. This form displays a similar trypsin sensitive pattern as wild type intestinal LPHbeta suggesting comparable folding patterns of the two species. Complex glycosylated LPHbeta is sorted to the apical membrane more efficiently than wild type pro-LPH. We conclude that the apical sorting signals for pro-LPH are exclusively found in the LPHbeta mature domain.
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PMID:The apical sorting of lactase-phlorizin hydrolase implicates sorting sequences found in the mature domain. 901 26

Brush border lactase-phlorizin hydrolase carries two catalytic sites. In the human enzyme lactase comprises Glu-1749, phlorizin hydrolase Glu-1273. The proteolytic processing of pro-lactase-phlorizin hydrolase by (rat) enterocytes stops two amino acid residues short of the N-terminus of 'mature' final, brush border lactase-phlorizin hydrolase. Only these two amino acid residues are removed by luminal pancreatic protease(s), probably trypsin.
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PMID:Intestinal lactase-phlorizin hydrolase (LPH): the two catalytic sites; the role of the pancreas in pro-LPH maturation. 976 14

Lactase-phlorizin hydrolase (LPH) is a membrane bound intestinal hydrolase, with an extracellular domain comprising 4 homologous regions. LPH is synthesized as a large polypeptide precursor, pro-LPH, that undergoes several intra- and extracellular proteolytic steps to generate the final brush-border membrane form LPHbeta(final). Pro-LPH is associated through homologous domain IV with the membrane through a transmembrane domain. A truncation of 236 amino acids at the COOH terminus of domain IV (denoted LAC236) does not significantly influence the transport competence of the generated mutant LPH1646MACT (Panzer, P., Preuss, U., Joberty, G., and Naim, H. Y. (1998) J. Biol. Chem. 273, 13861-13869), strongly suggesting that LAC236 is an autonomously folded domain that links the ectodomain with the transmembrane region. Here, we examine this hypothesis by engineering several N-linked glycosylation sites into LAC236. Transient expression of the cDNA constructs in COS-1 cells confirm glycosylation of the introduced sites. The N-glycosyl pro-LPH mutants are transported to the Golgi apparatus at substantially reduced rates as compared with wild-type pro-LPH. Alterations in LAC236 appear to sterically hinder the generation of stable dimeric trypsin-resistant pro-LPH forms. Individual expression of chimeras containing LAC236, the transmembrane domain and cytoplasmic tail of pro-LPH and GFP as a reporter gene (denoted LAC236-GFP) lends strong support to this view: while LAC236-GFP is capable of forming dimers per se, its N-glycosyl variants are not. The data strongly suggest that the LAC236 is implicated in the dimerization process of pro-LPH, most likely by nucleating the association of the ectodomains of the enzyme.
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PMID:Additional N-glycosylation and its impact on the folding of intestinal lactase-phlorizin hydrolase. 1074 59