A beta-galactosidase isoenzyme from Turbo cornutus with substrate specificity toward GM1-ganglioside and glycoproteins

beta-Galactosidase from T. cornutus was resolved into two activity peaks by gel filtration column chromatography. The pH optima of the two peaks designated P1 and P2, were 5.5 and 3.0, respectively, when p-nitrophenyl-beta-D-galactopyranoside was used as the substrate. The molecular weights of P1 and P2 were 700,000 +/- 70,000 and 78,000 +/- 7800, respectively, when estimated by gel filtration chromatography. The activities of both forms of the enzymes are stimulated by anions such as Cl-, Br- and NO-3. While the activity of P1 was stimulated by low anion concentrations, P2 requires 700 times higher anion concentration for similar enhancement of activity. P1, the high molecular weight form hydrolyzes mainly galactose from small molecular weight beta-galactosides, such as p-nitrophenyl-beta-D-galactopyranoside, 4-methylumbelliferyl-beta-D-galactopyranoside, lactose, lactosylceramide and 3-O-beta-D-galactopyranosyl-D-arabinose, whereas P2, the low molecular weight form cleaves, in addition, all the beta-galactosides tested, including 2-hexadecanoylamino-4-nitrophenyl-beta-D-galactopyranoside, GM1-ganglioside, asialo-GM1-ganglioside, asialo fetuin, alpha 1-acid glycoproteins and the tryptic peptides of the glycoproteins. The optimal conditions for the hydrolysis of the terminal galactose from GM1-ganglioside which does not occur in gastropods, such as T. cornutus, was found to require 40 mM NaCl and 1 mM sodium taurodeoxycholate at pH 3.0 in 50 mM sodium citrate buffer, conditions similar to those by mammalian beta-galactosidase.     

Purification of G-M-1-ganglioside and ceramide lactoside beta-galactosidase from rabbit brain.

The major beta-galactosidase of rabbit brain has been purified over 400-fold. The enzyme converts G-M-1-ganglioside; Gal beta-1 yields 3 GalNAc beta-1 yields 4 (NANalpha-2 yields 3) Gal beta-1 yields 4 Glc yields ceramide (G-M-1) into Tay Sachs ganglioside GalNAc beta-1 yields 4 (NANalpha-2 yields 3) Gal beta-1 yields 4 Glc yields ceramide (G-M-2-ganglioside) and ceramide lactoside, Gal beta-1 yields 4 Glc yields ceramide (Gal-Glc-Cer) into glucocerebroside, Glc yields ceramide (Glc-Cer). The enzyme also hydrolyzes the synthetic substrates NPh-Gal and MeUmb-Gal. It is eluted as a single peak from Sephadex G-200 columns when natural and synthetic substrates were used and has an isoelectric point of 6.3. We were unable to resolve activity towards G-M-1-ganglioside and Gal-Glc-Cer by polyacrylamide electrophoresis in two buffer systems. With G-M-1 the pH optimum was 4.3 in acetate buffer and the K-m value 78 mu-M while with Gal-Glc-Cer, a pH optimum of 4.5 and a K-m of 17 mu-M were found. Hydrolysis of both natural and synthetic substrates was inhibited by gamma-D-galactonolactone, D-galactose and lactose. The data strongly suggest that a single beta-galactosidase hydrolyzes all the substrates tested.     

Protein and DNA levels in the submandibular salivary glands of isoproterenol stimulated mice

The DNA and soluble and sedimental protein levels were studied in isoproterenol stimulated mouse submandibular salivary glands over a period of 200 h. Hypertrophy, the predominant cellular phenomenon following chronic isoproterenol treatment, was associated with a marked elevation of 14C-leucine incorporation into the buffer soluble protein fraction and a less pronounced isotope incorporation into the sedimental sub-cellular fraction as well as continued DNA synthesis. These findings are contrary to the accepted definitions of hypertrophy which preclude continued DNA synthesis. A suggestion is made, therefore, that in the system used the polyploidy associated with the hypertrophy involves.     

Modulation of dihydropyridine-sensitive gastric mucosal calcium channels by GM1-ganglioside.

1. A dihydropyridine-sensitive calcium channel complex was solubilized from gastric mucosal cell membranes and purified by affinity chromatography on wheat germ agglutinin. 2. The calcium channel complex labeled with [3H]PN200-110, when reconstituted into phosphatidylcholine vesicles, exhibited active 45Ca2+ uptake into intravesicular space as evidenced by La3+ displacement and osmolarity studies. The channel complex responded in a dose-dependent manner to dihydropyridine calcium antagonist, PN200-110, which at 0.5 microM exerted maximal inhibitory effect of 66% in 45Ca2+ uptake. 3. The uptake of 45Ca2+ into vesicle-reconstituted gastric mucosal calcium channel complex was inhibited by GM1-ganglioside. Maximum inhibitory effect was achieved at 10-15 nM GM1, at which point a 74% decrease in 45Ca2+ uptake occurred. Furthermore, GM1 also inhibited dihydropyridine binding to gastric mucosal membranes, indicating the extracellular orientation of calcium channel domains for GM1. 4. The ability of GM1 to modulate the intracellular calcium levels may be an important feature in gastric mucosal protection by this ganglioside.     

Tissue-specific expression in the salivary glands of transgenic mice.

Using a DNA construct, named Lama, derived from the murine parotid secretory protein (PSP) gene, we have obtained salivary gland specific gene expression in transgenic mice. Lama is a PSP minigene and allows analysis of the PSP gene 5' regulatory region by transgenesis. We show here that the regulatory region included in Lama with 4.6 kb of 5' flanking sequence is sufficient to direct expression specifically to the salivary glands. The expression level in the parotid gland is only about one percent of the PSP mRNA level, while that of the sublingual gland is near the PSP mRNA level. This suggests significant differences in the PSP gene regulation in the two glands. In addition, Lama is a secretory expression vector in which cDNAs or genomic fragments can be inserted. We demonstrate that the Lama construct can direct the expression of a heterologous cDNA encoding the C-terminal peptide of human factor VIII to salivary glands and that the corresponding peptide is secreted into saliva.     

Mutations in acid beta-galactosidase cause GM1-gangliosidosis in American patients.

We describe four new mutations in the beta-galactosidase gene. These are the first mutations causing infantile and juvenile GM1-gangliosidosis to be described in American patients. Cell lines from two patients with juvenile and from six patients with infantile GM1-gangliosidosis were analyzed. Northern blot analysis showed the acid beta-galactosidase message to be of normal size and quantity in two juvenile and four infantile cases and of normal size but reduced quantity in two infantile cases. The mutations are distinct from the Japanese mutations. All are point mutations leading to amino acid substitutions: Lys577-->Arg, Arg590-->His, and Glu632-->Gly. The fourth mutation, Arg208-->Cys, accounts for 10 of 16 possible alleles. Two infantile cases from Puerto Rico of Spanish ancestry are homozygous for this mutation, suggesting that this allele may have come to South America and North America via Puerto Rico. That these mutations cause clinical disease was confirmed by marked reduction in catalytic activity of the mutant proteins in the Cos-1 cell expression system.     

A fluorometric method for monitoring the enzymic hydrolysis of terminal galactose from GM1-ganglioside.

A fluorometric method for monitoring the enzymic hydrolysis of the terminal galactose from GM₁-ganglioside has been developed. The released galactose is oxidized with galactose dehydrogenase and NAD and the fluorescence of the product NADH measured. This method can detect as little as 0.1 nmol of galactose. β-Galactosidase from the gastropod Turbo cornutus was employed for the hydrolysis reaction. The rate of GM₁-ganglioside hydrolysis is linearly proportional to incubation time for 30 min under the assay conditions employed. In addition to galactose, the other product of hydrolysis, GM₂-ganglioside, is identified by thin-layer chromatography. This procedure provides a convenient and specific method for measuring the release of galactose from GM₁-ganglioside.     

Feline GM1 gangliosidosis: characterization of the residual liver acid beta-galactosidase.

The residual liver acid beta-galactosidase (beta-gal) activity from a case of feline GM1 gangliosidosis was partially purified and characterized with respect to its pH optimum, kinetic properties, thermostability, isoelectric point, molecular weight, and antigenicity. In comparison to the normal enzyme, the mutant enzyme had the same pH optima for the three substrates tested, a reduced Km for 4-methylumbelliferyl-beta-gal, elevated Km's for GM1 and asialofetuin (ASF), and increased thermolability. In addition, the mutant beta-gal had a higher isoelectric point, a reduced molecular weight, and appeared to be antigenically different from normal. The results suggest that the mutation in the Birmingham GM1 cat is structural and that the residual enzyme activity is a structurally altered acid beta-gal. The apparent lack of antigenic identity between the mutant and normal enzymes, in contrast to the situation in many human GM1 patients, is most unusual.     

Dog GM1 gangliosidosis: characterization of the residual liver acid beta-galactosidase.

The residual liver acid beta-galactosidase activity from the first documented case of GM1 gangliosidosis in dogs was partially purified and characterized with respect to kinetic properties, thermostability, isoelectric point, molecular weight, and antigenicity. The GM1 dog liver beta-galactosidase appears to be identical with the normal dog liver enzyme in all properties examined. The canine disease is strikingly different from the human disease in the amount of enzyme that is present in the tissue. Unlike the human disease, in which normal amounts of catalytically defective beta-galactosidase are present, in dog GM1 gangliosidosis, only 1% of normal beta-galactosidase protein is detectable.     

Nature of the mutation in adult beta-galactosidase deficient patients.

Fibroblasts from three chronically affected, beta-galactosidase deficient adults were shown to synthesize nearly normal quantities of immunologically reactive catalytically deficient beta-galactosidase, indicating that they are CRM + structural mutants.     

Quantitative peptidomics of pituitary glands from mice deficient in copper transport.

We previously described a method of quantitating levels of peptides in Cpe(fat)/Cpe(fat) mice using affinity chromatography to isolate peptide-processing intermediates and differential isotopic labeling/mass spectrometry. In the present study, we compared two different isotopic labels, acetic anhydride and succinic anhydride for detection and quantitation of peptides in wild type mice. As previously found for acetic anhydride, succinic anhydride efficiently labels all primary amines in various peptides. Of these two reagents, succinic anhydride provides better resolution between the heavy and light peaks of the labelled peptides due to a greater mass difference between the deuterated (heavy) and non-deuterated (light) form of this label (4 Da for succinate, 3 Da for acetate). Using succinic anhydride labeling, the accuracy of measuring 1:1 and 1:2 ratios of peptides in pituitary extracts was within 5% of the theoretical value for most peptides. The accuracy with succinic anhydride is comparable to the accuracy of acetic anhydride and more peptides could be detected and quantitated with succinic anhydride. The two labels were then used to examine pituitary peptides in mice with a defect in copper transport (Atp7a mice) vs wild type mice. Using succinic anhydride, 13 peptides could be detected, 12 of which matched the theoretical mass of known pituitary peptides. Five of the six peptides which contain C-terminal amide groups were significantly decreased in the Atp7a mice relative to wild type mice, whereas only one non-amidated peptide was significantly decreased in Atp7a mice. With acetic anhydride, only five peptides could be quantitated. The three peptides which contain C-terminal amide groups were decreased approximately 30% in the Atp7a mice. The selective decrease in amidated peptides in Atp7a mice is consistent with the copper-requirement of the enzyme that forms C-terminal amides.     

Ganglioside GM1 beta-galactosidase: studies in human liver and brain

A microcolumn assay for ganglioside GM₁ β-galactosidase (EC 3.2.1.23) has been developed using GM₁ tritiated exclusively in the terminal galactose residue. The reaction is stimulated up to 100-fold by anionic and cationic detergents; this stimulation is inhibited by neutral detergents. 4-Methylumbelliferyl β-d-galactopyranoside is hydrolyzed about seven times more rapidly than GM₁ in human brain (gray matter) and liver. Agarose gel filtration separated two forms of GM₁ β-galactosidase in both brain and liver. The major form (ganglioside GM₁ β-galactosidase A) had a molecular weight of 60–70 × 10³ and the minor form (ganglioside GM₁ β-galactosidase B) 600–800 × 10³. The liver and brain GM₁ β-galactosidases and 4-methylumbelliferyl β-galactosidase A cochromatographed on fractionation. The two forms of the enzyme in liver isolated by gel filtration corresponded to the two major forms found on starch gel electrophoresis and were converted to electrophoretically slower-moving forms after treatment with neuraminidase (EC 3.2.1.8, Cl. perfringens) suggesting that both are sialylated glycoproteins. The activity of GM₁ β-galactosidase in the brain and liver tissue of patients with GM₁ gangliosidosis Types I and II was less than 2% of control values. The mutation in each GM₁ gangliosidosis appears to result in a severe reduction of activity of two ganglioside GM₁ β-galactosidases.     

Quantitation of the enzymically deficient cross reacting material in GM1 gangliosidoses.

Normal quantities of GM1 beta-galactosidase cross reacting material (CRM) (0.31-0.47 microgram/mg protein) were detected by a sensitive radial immunodiffusion assay in skin fibroblasts from patients with GM1 gangliosidosis type 1 and adult variants, whereas elevated levels were found in GM1 gangliosidosis type 2 (0.41-0.72 microgram/mg protein). The specific activity of the immunologically CRM towards GM1 ganglioside of normal fibroblasts was about 500 times that of type 1, 100 times that of type 2, and 30 times that of the adult variants.     

Mutations in the lysosomal beta-galactosidase gene that cause the adult form of GM1 gangliosidosis.

Three adult patients with acid beta-galactosidase deficiency/GM1 gangliosidosis who were from two unrelated families of Scandinavian descent were found to share a common point mutation in the coding region of the corresponding gene. The patients share common clinical features, including early dysarthria, mild ataxia, and bone abnormalities. When cDNA from the two patients in family 1 was PCR amplified and sequenced, most (39/41) of the clones showed a C-to-T transition (C-->T) at nucleotide 245 (counting from the initiation codon). This mutation changes the codon for Thr(ACG) to Met(ATG). Mutant and normal sequences were also found in that position in genomic DNA, indicating the presence of another mutant allele. Genomic DNA from the patient in family 2 revealed the same point mutation in one allele. It was determined that in each family only the father carried the C-->T mutation. Expression studies showed that this mutation produced 3%-4% of beta-galactosidase activity, confirming its deleterious effects. The cDNA clones from the patients in family 1 that did not contain the C-->T revealed a 20-bp insertion of intronic sequence between nucleotides 75 and 76, the location of the first intron. Further analysis showed the insertion of a T near the 5' splice donor site which led to the use of a cryptic splice site. It appears that the C-->T mutation results in enough functional enzyme to produce a mild adult form of the disease, even in the presence of a second mutation that likely produces nonfunctional enzyme.     

Immunohistochemical localization of the metalloproteinase meprin in salivary glands of male and female mice.

Meprin is a membrane-bound metalloproteinase which is expressed at high levels in the brush border membrane of proximal tubules of kidneys of some mouse strains (referred to as high meprin-activity mice). The mature active proteinase is not present in kidneys of many inbred strains of mice; however, these low meprin-activity mice possess a kidney protein that crossreacts with polyclonal antibodies prepared against meprin. In the present studies, immunohistochemical methods were used to determine the presence of meprin in liver, pancreas, spleen, testis, thymus, kidney, salivary glands, stomach, duodenum, and skin. Meprin crossreactivity was observed only in kidney and salivary glands. In salivary glands, the enzyme was found on the luminal surface of intercalated and striated ducts of submandibular and parotid glands and on interlobular ducts of the latter. In both kidney and salivary glands, the intensity of immunochemical staining was greater in males compared with females. For both sexes, immunoreactivity was markedly greater in the high meprin-activity mice compared to the low meprin-activity mice. These studies indicate that meprin has a limited tissue distribution, and that genetic and hormonal factors that regulate the proteinase are similar in kidney and salivary glands. The localization of the proteinase implies that the enzyme functions in modifying proteins and peptides that are secreted or re-absorbed in the ducts of these tissues.     

Processing of human beta-galactosidase in GM1-gangliosidosis and Morquio B syndrome

The nature of the molecular defect resulting in the beta-galactosidase deficiency in different forms of GM1-gangliosidosis and mucopolysaccharidosis IV B (Morquio B syndrome) was investigated. Normal and mutant cultured skin fibroblasts were labeled in vivo with [3H]leucine and immunoprecipitation studies with human anti-beta-galactosidase antiserum were performed, followed by polyacrylamide gel electrophoresis and fluorography. In Morquio B syndrome, the mutation does not interfere with the normal processing and intralysosomal aggregation of beta-galactosidase. In cells from infantile and adult GM1-gangliosidosis, 85-kDa precursor beta-galactosidase was found to be synthesized normally but more than 90% of the enzyme was subsequently degraded at one of the early steps in posttranslational processing. The residual 5-10% beta-galactosidase activity in adult GM1-gangliosidosis is 64-kDa mature lysosomal enzyme with normal catalytic properties but with a reduced ability of the monomeric form to aggregate into high molecular weight multimers. Knowledge of the exact nature of the molecular defect underlying beta-galactosidase deficiency in man may lead to a better understanding of the clinical and pathological heterogeneity among patients with different types of GM1-gangliosidosis and Morquio B syndrome.     

Purification and characterization of GM1 ganglioside beta-galactosidase from normal feline liver and brain.

GM1 ganglioside beta-galactosidase (GM1-beta-galactosidase) was purified from normal cat brain and liver by a combination of classical and affinity procedures. The final preparation of brain GM1-beta-galactosidase was enriched over 2000-fold with a 36% yield. However, the product was shown to contain several components by disc gel electrophoresis. GM1-beta-galactosidase was also purified from liver with greater than a 30 000-fold enrichment and 40% yield. The liver enzyme was judged homogeneous by disc gel electrophoresis at pH 4.3, 8.1, and 8.9 and by gel chromatography. Both liver and brain GM1-beta-galactosidase(s) eluted as sharp symmetrical peaks from Sephadex G-200 with molecular weights of 250 000 +/- 50 000. The apparent Km determined for 4-methylumbelliferyl beta-D-galactopyranoside (4-MU-Gal) using partially purified brain GM1-beta-galactosidase was 1.73 X 10(-4) M. Liver GM1-beta-galactosidase gave a Km with 4-MU-Gal of 3.25 X 10(-4) M and for [3H]GM1 ganglioside a Km of 4.51 X 10(-4) M was calculated. The pH optima of brain and liver GM1-beta-galactosidase using 4-MU-Gal was 3.8-4.5. By contrast, liver GM1-beta-galactosidase gave a sharp activity peak at pH 4.2 with [3H]GM1 ganglioside. Inhibition by mercuric chloride and sensitivity to hydrogen peroxide and persulfate suggest the involvement of a sulfhydryl in catalysis.