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A Possible Role for Arylsulfatase G in Dermatan Sulfate Metabolism.


ABSTRACT: Perturbations of glycosaminoglycan metabolism lead to mucopolysaccharidoses (MPS)-lysosomal storage diseases. One type of MPS (type VI) is associated with a deficiency of arylsulfatase B (ARSB), for which we previously established a cellular model using pulmonary artery endothelial cells with a silenced ARSB gene. Here, we explored the effects of silencing the ARSB gene on the growth of human pulmonary artery smooth muscle cells in the presence of different concentrations of dermatan sulfate (DS). The viability of pulmonary artery smooth muscle cells with a silenced ARSB gene was stimulated by the dermatan sulfate. In contrast, the growth of pulmonary artery endothelial cells was not affected. As shown by microarray analysis, the expression of the arylsulfatase G (ARSG) in pulmonary artery smooth muscle cells increased after silencing the arylsulfatase B gene, but the expression of genes encoding other enzymes involved in the degradation of dermatan sulfate did not. The active site of arylsulfatase G closely resembles that of arylsulfatase B, as shown by molecular modeling. Together, these results lead us to propose that arylsulfatase G can take part in DS degradation; therefore, it can affect the functioning of the cells with a silenced arylsulfatase B gene.

SUBMITTER: Poterala-Hejmo A 

PROVIDER: S-EPMC7404199 | biostudies-literature | 2020 Jul

REPOSITORIES: biostudies-literature

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A Possible Role for Arylsulfatase G in Dermatan Sulfate Metabolism.

Poterala-Hejmo Aleksandra A   Golda Adam A   Pacholczyk Marcin M   Student Sebastian S   Tylki-Szymańska Anna A   Lalik Anna A  

International journal of molecular sciences 20200712 14


Perturbations of glycosaminoglycan metabolism lead to mucopolysaccharidoses (MPS)-lysosomal storage diseases. One type of MPS (type VI) is associated with a deficiency of arylsulfatase B (ARSB), for which we previously established a cellular model using pulmonary artery endothelial cells with a silenced <i>ARSB</i> gene. Here, we explored the effects of silencing the <i>ARSB</i> gene on the growth of human pulmonary artery smooth muscle cells in the presence of different concentrations of dermat  ...[more]

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