Protein histidine phosphorylation in eukaryotes has been sparsely studied compared to protein serine/threonine and tyrosine phosphorylation. In an attempt to rectify this by probing porcine liver cytosol with the phosphohistidinecontaining peptide succinyl-Ala-His(P)-Pro-Phe-p-nitroanilide (phosphopeptide I), we observed a phosphatase activity that was insensitive towards okadaic acid and EDTA. This suggested the existence of a phosphohistidine phosphatase different from protein phosphatase 1, 2A and 2C. A 1000-fold purification to apparent homogeneity gave a 14-kDa phosphatase with a specific activity of 3 lmolAEmin )1 AEmg )1 at pH 7.5 with 7 lM phosphopeptide I as substrate. Partial amino-acid sequence determination of the purified porcine enzyme by MS revealed similarity with a human sequence representing a human chromosome 9 gene of hitherto unknown function. Molecular cloning from a human embryonic kidney cell cDNAlibrary followed by expression and purification, yielded a protein with a molecular mass of 13 700 Da, and an EDTA-insensitive phosphohistidine phosphatase activity of 9 lmolAEmin )1 AEmg )1 towards phosphopeptide I. No detectable activity was obtained towards a set of phosphoserine-, phosphothreonine-, and phosphotyrosine peptides. Northern blot analysis indicated that the human phosphohistidine phosphatase mRNA was present preferentially in heart and skeletal muscle. These results provide a new tool for studying eukaryotic histidine phosphorylation/dephosphorylation.Keywords: dephosphorylation; N-phosphorylation; phosphoamidase; phosphopeptide; protein histidine phosphatase.Boyer and coworkers detected protein-bound phosphohistidine in rat-liver mitochondrial succinyl-CoA synthetase almost 40 years ago [1,2]. Despite the long time interval and the fact that phosphohistidine represents a substantial fraction of eukaryotic protein-bound phosphate [3], only a few phosphohistidine-containing proteins have been detected compared to the large number of eukaryotic proteins phosphorylated on serine, threonine and tyrosine residues. One reason for this difference may be that the N-bound phosphate of phosphohistidine easily escapes detection by common analytical procedures, due to its lability under acidic conditions, e.g. during fixation and staining of gels after SDS/PAGE [4].The studies on eukaryotic protein histidine phosphorylation and dephosphorylation have dealt with essentially two aspects. One is the intermediary phosphorylation of enzymes [5][6][7][8][9][10], of which nucleoside diphosphate kinase is a particularly well-studied example. The other is the reversible protein histidine phosphorylation by protein kinases and phosphatases [3,11]. An important contribution to the latter field was the purification of a yeast protein histidine kinase in 1991 [12]. Access to this enzyme also made possible the preparation of 32 P-labelled histone H4, which was later used as substrate in the search for phosphohistidine phosphatases. Using such an approach, the catalytic subunits of the well-studied serine/...
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