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Iduronate 2-sulfatase

Iduronate 2-sulfatase (IDS), also referred to as Alpha-L-iduronate sulfate sulfatase or Idursulfase, is a lysosomal enzyme involved in the degradation pathway of dermatan sulfate and heparan sulfate.[1]

Function

Iduronate 2-sulfatase is located in the lysosome.[1] It is involved in the lysosomal degradation pathway of dermatan sulfate and heparan sulfate.[1] IDS hydrolyzes the 2-sulfate groups of the L-iduronate 2-sulfate units of dermatan sulfate, heparan sulfate and heparin.[1] Dermatan sulfate and heparan sulfate are complex glycosaminoglycans, which are essentially large sugar molecules.[2] They play important roles in cell adhesion, growth, proliferation and repair, and their degradation and recycling in the lysosome are essential for cellular maintenance.[2] IDS is expressed in the tissues of the liver, kidney, lung, and placenta.[1]

Disease

Mutations in Iduronate 2-sulfatase on the Xq28 chromosome can lead to Mucopolysaccharidosis 2 (MPS2), more commonly known as Hunter syndrome.[1] MPS2 is an X-linked lysosomal storage disease.[1] Due to the loss of IDS activity, the disease is characterized by the intracellular accumulation of the glycosaminoglycans heparan sulfate and dermatan sulfate, which are then excreted in urine.[1] Scientists have identified over 500 mutations on the Xq28 chromosome that include rearrangements, insertions/deletions, splicing defects and nonsense point mutations.[2] It is rare to find adults with severe Hunter syndrome as the average life expectancy for those with MPS2 is 15 years of age.[1] Most children diagnosed with MPS2 have somatic abnormalities including skeletal deformities, hepatosplenomegaly, and progressive cardiopulmonary deterioration.[1] Neurological damage is also prevalent beginning with what seems to be a developmental delay and hyperactivity, but progresses to mental retardation and dementia.[1] Death from MPS2 is typically due to obstructive airway disease or cardiac failure.[1] A treatment for patients with mild Hunter syndrome is enzyme replacement therapy, which involves the recombinant human IDS.[2]

Structural highlights

References

1. UniProt ConsortiumEuropean Bioinformatics InstituteProtein Information ResourceSIB Swiss Institute of Bioinformatics. Iduronate 2-sulfatase https://www.uniprot.org/uniprot/P22304#pathology_and_biotech (accessed Apr 28, 2021). 2. Demydchuk M, Hill CH, Zhou A, Bunkóczi G, Stein PE, Marchesan D, Deane JE, Read RJ. Insights into Hunter syndrome from the structure of iduronate-2-sulfatase. Nat Commun. 2017 Jun 8;8:15786. doi: 10.1038/ncomms15786. PMID: 28593992; PMCID: PMC5472762.

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@@ Line 1: / Line 1: @@
-== Triose phosphate isomerase ==
+==Iduronate 2-sulfatase==
-<StructureSection load='5CSR' size='340' side='right' caption='Triose phosphate isomerase' scene='75/752270/Intro/2>
+<StructureSection load='5FQL' size='340' side='right' caption='Iduronate 2-sulfatase protein' scene=''>
-Triosephosphate isomerase (TPI or TIM) is a functionally and structurally well-known enzyme that play a crucial role in glycolytic and gluconeogenic metabolism. TPI interconverts dihydroxyacetone phosphate (DHAP) and glyceraldehyde-3-phosphate (G3P) <ref>DOI:10.1371/journal.pone.0145331</ref>
+Iduronate 2-sulfatase (IDS), also referred to as Alpha-L-iduronate sulfate sulfatase or Idursulfase, is a lysosomal enzyme involved in the degradation pathway of dermatan sulfate and heparan sulfate.[1]
-== Structure and Function ==
-This crystal structure of trioseohosphate isomerase was isolated from Thermoplasma acidophilum, an archaeal species, and therefore was called TaTPI. <scene name='75/752270/Tatpi/2'>TaTPI</scene> contain four copies of TaTPI monomer in the asymmetric unit, comprising <scene name='75/752270/Tatpi_homodimer/1'>two homodimers</scene>. TaTPI is composed of 216 amino acid residues, which is shorter compare to other TPIs from bacterial and eukaryotic species. Each subunit forms a <scene name='75/752270/Tim_barrel/1'>TIM barrel</scene> in which 8α helices (in pink) alternate with 8β sheets (in yellow) to form backbone of the protein. Hydrophobic chains form the core enzyme whereas hydrophilic found near the ends of the barrel where exposed to solvent. Each subunit has it own active site and only active as a dimer. The <scene name='75/752270/Active_glu137_his89_lys9/1'>active site</scene> includes conserved residues: <scene name='75/752270/Gly137/2'>Glu 137, His 89, Lys 9</scene>. The catalytic base is Glu 137. The oxyanion hole is formed between nitrogen of Lys 9 and of His 89 with O2 of G3P. The phosphate group of G3P forms hydrogen bonds with backbone nitrogen atoms of <scene name='75/752270/Active_glu137_his89_lys9/2'>Gly143, Gly 175, Ala 196 and Ser 197</scene> residues.
+== Function ==
+Iduronate 2-sulfatase is located in the lysosome.[1] It is involved in the lysosomal degradation pathway of dermatan sulfate and heparan sulfate.[1] IDS hydrolyzes the 2-sulfate groups of the L-iduronate 2-sulfate units of dermatan sulfate, heparan sulfate and heparin.[1] Dermatan sulfate and heparan sulfate are complex glycosaminoglycans, which are essentially large sugar molecules.[2] They play important roles in cell adhesion, growth, proliferation and repair, and their degradation and recycling in the lysosome are essential for cellular maintenance.[2] IDS is expressed in the tissues of the liver, kidney, lung, and placenta.[1]
 == Disease ==
+Mutations in Iduronate 2-sulfatase on the Xq28 chromosome can lead to Mucopolysaccharidosis 2 (MPS2), more commonly known as Hunter syndrome.[1] MPS2 is an X-linked lysosomal storage disease.[1] Due to the loss of IDS activity, the disease is characterized by the intracellular accumulation of the glycosaminoglycans heparan sulfate and dermatan sulfate, which are then excreted in urine.[1] Scientists have identified over 500 mutations on the Xq28 chromosome that include rearrangements, insertions/deletions, splicing defects and nonsense point mutations.[2] It is rare to find adults with severe Hunter syndrome as the average life expectancy for those with MPS2 is 15 years of age.[1] Most children diagnosed with MPS2 have somatic abnormalities including skeletal deformities, hepatosplenomegaly, and progressive cardiopulmonary deterioration.[1] Neurological damage is also prevalent beginning with what seems to be a developmental delay and hyperactivity, but progresses to mental retardation and dementia.[1] Death from MPS2 is typically due to obstructive airway disease or cardiac failure.[1] A treatment for patients with mild Hunter syndrome is enzyme replacement therapy, which involves the recombinant human IDS.[2]
+[[Image:Signs-and-symptoms-of-hunter-syndrome.jpg]]
+== Structural highlights ==
+<scene name='75/752270/Ide_mutations/1'>Scene 1: Location of mutations</scene>
-== Relevance ==
+<scene name='75/752270/Ide_atp_binding-active_sites/1'>Scene 2: ATP binding active sites</scene>
-== Structural highlights ==
+<scene name='75/752270/Ide_n_and_c_terminals/1'>Scene 3: N and C terminals</scene>
-<scene name='75/752270/Tatpi/3'>TaTPI</scene>
+<scene name='75/752270/Active_site_on_chain_a/1'>Scene 4: Active sites</scene>
 </StructureSection>
 == References ==
-<references/><scene name='75/752270/Tatpi/4'>TaTPI</scene>
+. UniProt ConsortiumEuropean Bioinformatics InstituteProtein Information ResourceSIB Swiss Institute of Bioinformatics. Iduronate 2-sulfatase https://www.uniprot.org/uniprot/P22304#pathology_and_biotech (accessed Apr 28,  2021).
+. Demydchuk M, Hill CH, Zhou A, Bunkóczi G, Stein PE, Marchesan D, Deane JE, Read RJ. Insights into Hunter syndrome from the structure of iduronate-2-sulfatase. Nat Commun. 2017 Jun 8;8:15786. doi: 10.1038/ncomms15786. PMID: 28593992; PMCID: PMC5472762.

Sandbox GGC7

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Iduronate 2-sulfatase

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