Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
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Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
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Enzyme
Compound
Query: EC:3.1.6.1 (
sulfatase
)
3,205
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The
sulfatase
enzymes, N-acetylgalactosamine-4-sulfatase (arylsulfatase B (ASB)) and galactose-6-sulfatase (GALNS) hydrolyze sulfate groups of CS. Deficiencies of
ASB
and GALNS are associated with the mucopolysaccharidoses. To determine if expression of
ASB
and GALNS impacts on glycosaminoglycans (GAGs) and proteoglycans beyond their association with the mucopolysaccharidoses, we modified the expression of
ASB
and GALNS by overexpression and by silencing with small interference RNA in MCF-7 cells. Content of total sulfated GAG (sGAG), chondroitin 4-sulfate (C4S), and total chondroitin sulfates (CSs) was measured following immunoprecipitation with C4S and CS antibodies and treatment with chondroitinase ABC. Following silencing of
ASB
or GALNS, total sGAG, C4S, and CS increased significantly. Following overexpression of
ASB
or GALNS, total sGAG, C4S, and CS declined significantly. Measurements following chondroitinase ABC treatment of the cell lysates demonstrated no change in the content of the other sGAG, including heparin, heparan sulfate, dermatan sulfate, and keratan sulfate. Following overexpression of
ASB
and immunoprecipitation with C4S antibody, virtually no sGAG was detectable. Total sGAG content increased to 23.39 (+/-1.06) microg/mg of protein from baseline of 12.47 (+/-0.68) microg/mg of protein following
ASB
silencing. mRNA expression of core proteins of the CS-containing proteoglycans,
syndecan-1
and decorin, was significantly up-regulated following overexpression of
ASB
and GALNS. Soluble
syndecan-1
protein increased following increases in
ASB
and GALNS and reduced following silencing, inversely to changes in CS. These findings demonstrate that modification of expression of the lysosomal sulfatases
ASB
and GALNS regulates the content of CSs.
...
PMID:Distinct effects of N-acetylgalactosamine-4-sulfatase and galactose-6-sulfatase expression on chondroitin sulfates. 1828 41
The enzyme
arylsulfatase B
(N-acetylgalactosamine 4-
sulfatase
; ASB; ARSB), which removes 4-sulfate groups from the nonreducing end of chondroitin-4-sulfate (C4S;CSA) and dermatan sulfate, has cellular effects, beyond those associated with the lysosomal storage disease mucopolysaccharidosis VI. Previously, reduced ASB activity was reported in cystic fibrosis patients and in malignant human mammary epithelial cell lines in tissue culture compared to normal cells. ASB silencing and overexpression were associated with alterations in
syndecan-1
and decorin expression in MCF-7 cells and in IL-8 secretion in human bronchial epithelial cells. In this report, we present the role of ASB in the regulation of the kininogen-bradykinin axis owing to its effect on chondroitin-4-sulfation and the interaction of C4S with kininogen. Silencing or overexpression of ASB in normal rat kidney epithelial cells in tissue culture modified the content of total sulfated glycosaminoglycans (sGAGs), C4S, kininogen, and bradykinin in spent media and cell lysates. Treatment of the cultured cells with chondroitinase ABC also increased the secretion of bradykinin into the spent media and reduced the C4S-associated kininogen. When ASB was overexpressed, the cellular kininogen that associated with C4S declined, suggesting a vital role for chondroitin-4-sulfation in regulating the kininogen-C4S interaction. These findings suggest that ASB, owing to its effect on chondroitin-4-sulfation, may impact on the kininogen-bradykinin axis and, thereby, may influence blood pressure. Because ASB activity is influenced by several ions, including chloride and phosphate, ASB activity may provide a link between salt responsiveness and the bradykinin-associated mechanism of blood pressure regulation.
...
PMID:Arylsulfatase B regulates interaction of chondroitin-4-sulfate and kininogen in renal epithelial cells. 2015 98
Advantage may be taken of macroautophagy ('autophagy') to promote ocular health. Autophagy continually captures aged or damaged cellular material for lysosomal degradation and recyling. When autophagic flux is chronically elevated, or alternatively deficient, health suffers. Chronic elevation of flux and stress are the consequence of inflammatory cytokines or of dry eye tears but not normal tears invitro. Exogenous tear protein lacritin transiently accelerates flux to restore homeostasis invitro and corneal health invivo, and yet the monomeric active form of lacritin appears to be selectively deficient in dry eye. Tissue transglutaminase-dependent cross-linking of monomer decreases monomer quantity and monomer affinity for coreceptor
syndecan-1
thereby abrogating activity. Tissue transglutaminase is elevated in dry eye. Mutation of
arylsulfatase A
,
arylsulfatase B
, ceroid-lipofuscinosis neuronal 3, mucolipin, or Niemann-Pick disease type C1 respectively underlie several diseases of apparently insufficient autophagic flux that affect the eye, including: metachromatic leukodystrophy, mucopolysaccharidosis type VI, juvenile-onset Batten disease, mucolipidosis IV, and Niemann-Pick type C associated with myelin sheath destruction of corneal sensory and ciliary nerves and of the optic nerve; corneal clouding, ocular hypertension, glaucoma and optic nerve atrophy; accumulation of 'ceroid-lipofuscin' in surface conjunctival cells, and in ganglion and neuronal cells; decreased visual acuity and retinal dystrophy; and neurodegeneration. For some, enzyme or gene replacement, or substrate reduction, therapy is proving to be successful. Here we discuss examples of restoring ocular surface homeostasis through alteration of autophagy, with particular attention to lacritin.
...
PMID:Lacritin and other autophagy associated proteins in ocular surface health. 2631 8
Membrane heparan sulfate proteoglycans (HSPG) regulate cell proliferation, migration, and differentiation and are therefore considered key players in cancer cell development processes. Here, we used the NT4 peptide to investigate how the sulfation pattern of HSPG on cells drives binding specificity. NT4 is a branched peptide that binds the glycosaminoglycan (GAG) chains of HSPG. It has already been shown to inhibit growth factor-induced migration and invasiveness of cancer cells, implying antagonist binding of HSPG. The binding affinity of NT4 with recombinant HSPG showed that NT4 bound glypican-3 and -4 and, with lower affinity,
syndecan
-4. NT4 binding to the cancer cell membrane was inversely correlated with
sulfatase
expression. NT4 binding was higher in cell lines with lower expression of SULF-1 and SULF-2, which confirms the determinant role of sulfate groups for recognition by NT4. Using 8-mer and 9-mer heparan sulfate (HS) oligosaccharides with analog disaccharide composition and different sulfation sites, a possible recognition motif was identified that includes repeated 6-O-sulfates alternating with N- and/or 2-O-sulfates. Molecular modeling provided a fully descriptive picture of binding architecture, showing that sulfate groups on opposite sides of the oligosaccharide can interact with positive residues on two peptide sequences of the branched structure, thus favoring multivalent binding and explaining the high affinity and selectivity of NT4 for highly sulfated GAGs. NT4 and possibly newly selected branched peptides will be essential probes for reconstructing and unraveling binding sites for cancer-involved ligands on GAGs and will pave the way for new cancer detection and treatment options.
...
PMID:Unraveling Heparan Sulfate Proteoglycan Binding Motif for Cancer Cell Selectivity. 3162 Mar 57
Multiple sclerosis (MS) is a chronic inflammatory demyelinating disease affecting the central nervous system in young adults. Heparan sulfate proteoglycans (HSPGs) are ubiquitous to the cell surface and the extracellular matrix. HSPG biosynthesis is a complex process involving enzymatic attachment of heparan sulfate (HS) chains to a core protein. HS side chains mediate specific ligand and growth factor interactions directing cellular processes including cell adhesion, migration and differentiation. Two main families of HSPGs exist, the syndecans (
SDC1
-4) and glypicans (GPC1-6). The SDCs are transmembrane proteins, while the GPC family are GPI linked to the cell surface.
SDC1
has well-documented interactions with numerous signalling pathways. Genome-wide association studies (GWAS) have identified regions of the genome associated with MS including a region on chromosome 13 containing GPC5 and GPC6. International studies have revealed significant associations between this region and disease development. The exostosin-1 (EXT1) and
sulfatase
-1 (SULF1) are key enzymes contributing to the generation of HS chains. EXT1, with documented tumour suppressor properties, is involved in the initiation and polymerisation of the growing HS chain. SULF1 removes 6-O-sulfate groups from HS chains, affecting protein-ligand interactions and subsequent downstream signalling with HS modification potentially having significant effects on MS progression. In this study, we identified significant associations between single nucleotide polymorphisms in
SDC1
, GPC5 and GPC6 and MS in an Australian Caucasian case-control population. Further significant associations in these genes were identified when the population was stratified by sex and disease subtype. No association was found for EXT1 or SULF1.
...
PMID:An investigation of genetic polymorphisms in heparan sulfate proteoglycan core proteins and key modification enzymes in an Australian Caucasian multiple sclerosis population. 3239 79
