Abstract
S-adenosylmethionine (SAM) is the substrate used in the methylation of homogalacturonan (HGA) in the Golgi apparatus. SAM is synthesized in the cytosol, but it is not currently known how it is then transported into the Golgi. In this study, we find that HGA methyltransferase is present in Golgi-enriched fractions and that its catalytic domain faces the lumen of this organelle. This suggests that SAM must be imported into the Golgi. We performed uptake experiments using [methyl-(14)C]SAM and found that SAM is incorporated into the Golgi vesicles, resulting in the methylation of polymers that are sensitive to pectinase and pectin methylesterase but not to proteases. To avoid detecting the transfer reaction, we also used [carboxyl-(14)C]SAM, the uptake of which into Golgi vesicles was found to be sensitive to temperature, detergents, and osmotic changes, and to be saturable with a K(m) of 33 microm. Double-label uptake experiments using [methyl-(3)H]SAM and [carboxyl-(14)C]SAM also revealed a time-dependent increase in the (3)H to (14)C ratio, suggesting that upon transfer of the methyl group, the resulting S-adenosylhomocysteine is not accumulated in the Golgi. SAM incorporation was also found to be inhibited by S-adenosylhomocysteine, whereas UDP-GalA, UDP-GlcA, and acetyl-CoA had no effect. DIDS, a compound that inhibits nucleotide sugar transporters, also had little effect upon SAM incorporation. Interestingly, the combination of UDP-GalA + acetyl-CoA or UDP-GlcA + acetyl-CoA produced a slight increase in the uptake of SAM. These results support the idea that a SAM transporter is required for HGA biosynthesis.
Highlights
S-Adenosylmethionine (SAM) is the donor substrate for a number of methylation reactions within the cell, including DNA and protein methylation (Fontecave et al, 2004)
These results strongly suggest that the catalytic domain of homogalacturonan methyltransferase (HGA-MT) faces the lumen of the Golgi apparatus in etiolated peas
The methylation of homogalacturonan occurs in the Golgi apparatus and biochemical analyses have indicated that the catalytic domains of the methyltransferases involved in this process face the lumen of this organelle (Goubet and Mohnen, 1999a; and this work)
Summary
S-Adenosylmethionine (SAM) is the donor substrate for a number of methylation reactions within the cell, including DNA and protein methylation (Fontecave et al, 2004). SAM is involved in other metabolic pathways such as ethylene biosynthesis (Kende, 1993) and the methylation of pectins (Kauss and Hassid, 1967; Vannier et al, 1992, Boulard et al 1997; Goubet et al, 1998). Goubet and Mohnen (1999a) have described a Golgi-localized homogalacturonan methyltransferase (HGA-MT) in tobacco cells, indicating that the methylation of homogalacturonan takes place in the Golgi. They found that by treating Golgi fractions with proteinase K, the HGA-MT activity was decreased only in permeabilized membranes, suggesting that this enzyme is located in the lumen of the Golgi apparatus
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