Sterolsulphate sulphohydrolase from human placenta microsomes--30 kDa molecular weight form of cholesterol sulphate sulphohydrolase

The cholesterol sulphate sulphohydrolase (CHS-ase) exhibiting molecular weight of 30 kDa was purified from human placenta microsomes. The microsomal proteins were extracted with 0.5% Triton X-100. The DEAE-cellulose chromatography of the solubilized microsomal proteins, performed at pH 7.6 allowed to separate two enzymatically active fractions. One of them was associated with the protein fraction unbound by DEAE-cellulose, the other was tightly bound by ion exchanger. The 30 kDa cholesterol sulphate sulphohydrolase was purified to homogenity from the protein fraction tightly bound by DEAE-cellulose. The highly purified enzyme preparation (specific activity 385 nmol min(-1)mg(-1) of protein) exhibited optimal activity at pH 6.4, the K(m) was established to be 6.7 x 10(-6)M, the pI value was 7.4. The 30 kDa cholesterol sulphate sulphohydrolase, in contrast to the CHS-ase form originated from the protein fraction unbound by DEAE-cellulose, was not sensitive to alkaline phosphatase treatment and phosphohydrolase inhibitors. The effects of steroids, -SH reacting agents and sulphohydrolase inhibitors on the enzyme activity were tested.     

Bile salt activation of cerebroside sulphate sulphohydrolase.

The cholate and taurodeoxycholate activations of cerebroside sulphate sulphohydrolase (cerebroside-3-sulphate 3-sulphohydrolase, EC 3.1.6.8) activity of arylsulphatase A (aryl-sulphate sulphohydrolase, EC 3.1.6.1) were compared. Taurodeoxycholate caused a sharp peak of response at a concentration of 1.25 mg/ml (type-I activation). Cholate also showed type-I activation but, in addition, it evoked a second, higher, response plateau at concentrations between 5 and 10 mg/ml (type-II activation). At the pH of the reaction, cholate is converted largely to the sparingly soluble free aicd, so at the high concentrations associated with type-II activation, copious precipitates were formed. It was found that the precipitated material was essential for the type-II activation. Type-I activation appears to involve bile salt interaction with substrate, while type-II activation appears to involve enzyme interaction with solid-phase cholic acid. the putative mutant arylsulphatase A in an unusual form of metachromatic leukodystrophy hydolysed cerebroside sulphate only in the presence of high levels of cholate. The type-II activation may thus be simulating a physiological desulphation reaction.     

Cholesterol sulphate sulphohydrolase of human placenta lysosomal membrane

In this paper we report that the activity of cholesterol sulphate sulphohydrolase (CHS-ase) is associated with the lysosomal membranes. The procedure of purification of CHS-ase from human placenta lysosomes was elaborated. The purified enzyme is highly specific to cholesterol sulphate (specific activity 2126.60+/-940.90 nmol min(-1) mg protein(-1)) and acts optimally at pH 3.4. The K(M) value for the hydrolysis of cholesterol sulphate is 3.6+/-0.95 x 10(-5)mol/l. The isoelectric point (pI) has the value 5.7, molecular weight estimated by SDS-PAGE electrophoresis is 38 kDa. The described enzyme may be involved in a regulation of cholesterol and cholesterol sulphate levels in the lysosomal membrane.     

Purification of steroid sulphohydrolase from human placenta microsomes

A procedure for purification of oestrone sulphate sulphohydrolase from human placenta microsomes was elaborated. The use of Concanavalin-A-Sepharose chromatography made it possible to separate, for the first time, oestrone sulphate sulphohydrolase (Mr 36,000, optimum pH 7.0, Km 5.5 X 10(-5) M, specific activity 1563 nmol X min-1 X mg protein-1) from arylsulphatase C (Mr 45,000, optimum pH 7.6, Km 0.96 X 10(-3) M). The observed third subfraction showed both arylsulphate C and oestrone sulphate sulphohydrolase activity. Sigmoidal kinetics of oestrone sulphate sulphohydrolase after DEAE-cellulose chromatography (Mr 130,000) points to the allosteric character of the enzyme.     

Subunits of sterol sulphate sulphohydrolase from human placenta microsomes.

A procedure for separation of the catalytic and regulatory subunits of sterol sulphate sulphohydrolase from human placenta microsomes with the use of Concanavalin A-Sepharose chromatography is presented. The Km value for the catalytic subunit with oestrone sulphate is 1.2 x 10(-5) M. The Hill coefficient value h, for the reconstituted enzyme complex is 3, the S0.5 = 0.68 x 10(-3) M and the value of Km is 0.31 x 10(-12) M. The regulatory subunit is trypsin sensitive, while the catalytic one is resistant to trypsin digestion.     

Oestrone sulphate sulphohydrolase activity in nuclear envelopes from human placenta cell nuclei.

Procedures for isolation, from human term placenta, of highly purified nuclei and nuclear envelopes with a low content of DNA are described. Both fractions contain oestrone sulphate sulphohydrolase activity. The enzyme from nuclear envelopes can be solubilized with Triton X-100 and, partially, with proteolytic enzymes. It does not require Ca2+ and is insensitive to Ag+ and agents reacting with SH groups. It is strongly inhibited by millimolar concentrations of sulphites and to a much smaller extent by phosphates. Oxidized forms of ascorbic acid, glutathione and NAD+ revealed a pronounced inhibitory effect, whereas reduced forms of these compounds produced a slight activation. It is proposed that oestrone sulphate sulphohydrolase activity in nuclear envelopes from human placenta is not exerted by arylsulphatase but represents a specific enzyme.     

A rapid four column purification of 2-deoxy-D-glucoside-2-sulphamate sulphohydrolase from human liver

2-Deoxy-D-glucoside-2-sulphamate sulphohydrolase was extracted from human liver and purified 40 000-fold by a simple four column procedure. The purification was followed using a specific substrate isolated from an acid hydrolysate of heparin, O-(alpha-2-sulphamino-2-deoxy-D-glucopyranosyl)-(1 leads to 3)-L-[6,3H]idonic acid. Only one form of the enzyme was seen on either ion exchange chromatography or isoelectric focussing, with a pI of 6.8. The apparent Mr of the holoenzyme as determined by gel filtration was 190 000 +/- 20 000. Two other larger Mr protein peaks observed on gel filtration appear to be an inactive dimer of the 190 000 dalton peak and a larger aggregate near the exclusion limit of the column. On polyacrylamide disc gel electrophoresis in sodium dodecyl sulphate, with or without prior reduction, each protein peak from the gel filtration column electrophoresed as a single major band with an apparent Mr corresponding to 55 000 +/- 6000.     

Multiple forms of 2-deoxy-D-glucoside-2-sulphamate sulphohydrolase from human placenta.

2-Deoxyglucoside-2-sulphamate sulphohydrolase was purified about 10 000-fold from the soluble extract of human placenta by using as substrate [N-sulpho-35S]heparin. Differently charged enzyme forms were observed on chromatography on DEAE-cellulose, all of which had an apparent mol.wt. of 110 000 as determined by gel filtration. By using immobilized heparan sulphate as affinity matrix the sulphamate sulphohydrolase could be separated into two forms, a minor one with low and a major one with high affinity for the adsorbent. When tested with [N-sulpho-35S]heparan sulphate the low-affinity form had a Km of 0.2 mM, and the high-affinity form a Km of 0.03 mM. Both forms exhibited the same Km of 10 microM towards [N-sulpho-35S]heparin and were equally well adsorbed to immobilized heparin. The two forms could be distinguished by their pH-optima and by the influence of KCl on heparan sulphate sulphohydrolase activity.     

Cholesterol sulphate sulphohydrolase from human placenta microsomes--purification and properties of the dephosphorylated form of enzyme

The procedure for purification of cholesterol sulphate sulphohydrolase (ChS-ase) from human placenta microsomes was elaborated. The highy purified enzyme preparation (specific activity 2000 nmol×min⁻¹×mg protein⁻¹) exhibited optimal activity at pH 9.0. The K_m value was established to be 1.5±0.85×10⁻⁵ M. The high molecular weight form (200 kDa) and the low molecular weight form (20 kDa) of the enzyme were separated. The interconversion of the high molecular weight variant into the low one occurs under the influence of dephosphorylation. Both forms exhibited typical Michaelis–Menten saturation kinetics. The effect of different compounds on the enzyme activity was tested.     

Dehydroepiandrosterone sulphate sulphohydrolase [correction of sulphoydrolase] from human placenta microsomes--properties of the purified enzyme

A form of steroid sulphate sulphohydrolase (EC 3.1.6.2) hydrolysing the dehydroepiandrosterone sulphate (DHEAS-ase) was purified from human placenta microsomes. During the purification procedure the DHEAS-ase was separated from the oestrone sulphate sulphohydrolase (OS-ase). The purified DHEAS-ase revealed specific activity of 1520 nmolxmin-1xmgprotein-1 and exhibited optimal activity at pH 8.4. The Km value was established to be 3.3+/-0.07x10(-5) M. The pI value was around 8.7. The molecular weight estimated by gel filtration was 7.4 kDa. The purified DHEAS-ase was not sensitive to the common sulphohydrolase inhibitors, such as phosphate, sulphate and sulphide ions, but was inhibited by several phosphohydrolase inhibitors (ammonium molybdate, vanadium oxide(V), zinc acetate). Steroids effected inhibition or activation of the purified enzyme. The data concerning substances reacting with -SH groups suggest that in the physiological conditions DHEAS-ase is controlled by the redox status of the cell.     

Activity of sterol-sulphate sulphohydrolase in rat brain: characterization, localization and change with age

Abstract— Homogenates of rat brain hydrolysed the sulphate esters of dehydroepiandrosterone, oestrone and pregnenolone to free steroids. The pH optimum was 6.6 for all three steroid sulphates. Under similar conditions, cholesterol sulphate was not hydrolysed to a significant extent. Unlike sterol sulphatases (EC 3.1.6.2) from extraneural tissues, most of the activity in brain was found in the crude nuclear fraction. The remainder of the activity was found in the crude mitochondrial fraction and almost none was detected in microsomal or cytosol fractions. Sterol sulphatase activity was present in the foetal brain and increased rapidly with increasing postnatal age to a plateau at approx. 25 days of postnatal age. The enzymic activity did not differ significantly with the sex of the animal. The sulphatase activity was found throughout the brain, with cerebellum and brain stem exhibiting a slightly higher activity per wet wt. of tissue than other regions. Inhibition of enzymic activity occurred in the presence of sodium deoxycholate, Triton X-100, sodium dodecyl sulphate and inorganic phosphate or sulphate.