Yoshikazu Ichihara

Nucleotide sequence and expression in Escherichia coli of cDNA of swine pepsinogen: involvement of the amino-terminal portion of the activation peptide segment in restoration of the functional protein

A clone, pSPcA2, which carries the full-length swine pepsinogen cDNA was isolated. The coding sequence comprised the signal peptide [15 amino acids (aa)], the activation peptide segment (44 aa) and mature pepsin (327 aa). The deduced amino acid sequence agrees with the published sequence with two exceptions. Asparagine instead of aspartate is present at aa positions 19 and 308. Two types of plasmids, pAS and pUCtacSPc series, were constructed for expressing swine pepsinogen cDNA. These plasmids directed the synthesis of polypeptides which were detected by employing an antibody to swine pepsinogen. However, all the polypeptides formed aggregates and showed no acid protease activity. Only the protein directed by pAS5 regained the acid protease activity after renaturation procedures. The activity was completely inhibited by pepstatin. Furthermore, the renatured pAS5 protein was spontaneously converted to pepsin under acidic conditions. The presence of Arg-8 in the activation peptide segment appears important for the stabilization of the pepsinogen molecule.

Hypomethylation and expression of pepsinogen a genes in the fundic mucosa of human stomach

We have examined the correlation between the extents of methylation and expression of pepsinogen A genes in normal human tissues. Expression of pepsinogen A mRNA was detected only in the fundic mucosa of the stomach and both CCGG and GCGC sites in the genes region were less methylated in the fundic mucosa than in other non-expressing tissues. Thus, there was an inverse correlation between the extents of methylation and expression of pepsinogen A genes and the role of DNA methylation in the regulation of pepsinogen A genes expression during normal differentiation was suggested.

Hydrocortisone-induced enhancement of expression and changes in methylation of pepsinogen genes in stomach mucosa of the developing rat.

Administration of hydrocortisone to infant rats caused a precocious increase in levels of mucosal pepsinogen and its mRNA together with morphological maturation of pepsinogen-producing cells. The increase in levels of pepsinogen mRNA was induced rapidly and was associated with increase in levels of its precursors, suggesting transcriptional regulation of pepsinogen genes by hydrocortisone. Methylation analysis with the methylation-sensitive restriction enzymes, HpaII and HhaI, revealed that hydrocortisone also induced sequential demethylation changes of CCGG and GCGC sites in and around pepsinogen genes. Most of these changes occurred after increases in transcription of the genes and did not appear to play a causal role in gene activation. Superficially, the observed demethylations corresponded to the sequential processes of morphological maturation of pepsinogen-producing cells. Thus, these changes in methylation are probably linked to hydrocortisone-induced differentiation of pepsinogen-producing cells and may reflect the mechanism in vivo for the maturation of pepsinogen genes.

Close linkage of human chromosomal pepsinogen A genes

We have obtained a clone containing two pepsinogen A genes in a single insert by screening a recombinant cosmid library for human genomic DNA. Restriction endonuclease mappings of this cloned DNA showed that these two genes are very similar, but distinct in structure, and that they are closely linked to one another in the human chromosome DNA. The close arrangement of the genes with very similar structures could facilitate the homologous recombination or the unequal crossing-over which accounts for high frequency of haplotype variation in copy number of pepsinogen A genes as reported by Taggart et al.

Cell-specific hypomethylation of the pepsinogen gene in pepsinogen-producing cells

The pepsinogen gene is hypomethylated in the stomach, in which it is expressed. For demonstration that this hypomethylation of the pepsinogen gene in the stomach reflects pepsinogen-producing cells, we analyzed fractions of dispersed mucosal cells with various contents of pepsinogen-producing cells prepared from guinea pig stomach by centrifugal elutriation. mRNA expression and the extent of hypomethylation of the pepsinogen gene in each fraction was closely correlated with the content of pepsinogen-producing cells. These results suggested hypomethylation of the pepsinogen gene in pepsinogen-producing cells and differential pepsinogen gene methylation in cell subpopulations in the stomach.