Independent regulation of nonallelic pancreatic amylase genes in diabetic mice

Hyperglycaemia but not hyperlipidaemia decreases serum amylase and increases neutrophils in the exocrine pancreas of cats

The goal of the study was to determine whether hyperglycaemia or hyperlipidaemia causes pancreatitis in cats and to assess the effect of excess serum glucose and lipids on amylase and lipase activity. Ten-day hyperglycaemic and hyperlipidaemic clamps were carried out in five and six healthy cats, respectively. Ten healthy cats received saline and served as controls. The activity of amylase was below the normal range in 4 of 5 hyperglycaemic cats by day 10. The activity of lipase did not vary in any of the cats. Samples of exocrine pancreas were normal on histological examination, but the number of tissue neutrophils was increased in hyperglycaemic cats (P<0.05). In a retrospective study 14 of 40 (35%) cats with naturally occurring diabetes mellitus had amylase activities below the reference range at the time of admission. Amylase activities normalised within 1 week of insulin therapy and subsequent glycaemic control. Lipase activity was increased in 26 of 40 (65%) diabetic cats and remained elevated despite glycaemic control. In conclusion, hyperglycaemia, but not hyperlipidaemia, increases pancreatic neutrophils in cats. However, because the histological morphology of the exocrine pancreas was normal, hyperglycaemia may play only a minor role in the pathogenesis of pancreatitis. Low amylase activities in diabetic cats may reflect an imbalance in glucose metabolism rather than pancreatitis.

Protein-DNA interactions in the 5'-flanking region of the bovine pancreatic ribonuclease gene

In the 5'-flanking region of the bovine pancreatic ribonuclease gene a sequence has been identified which specifically binds one or more factors present in nuclear protein extracts prepared from bovine pancreas. The binding site, as delineated by footprinting analysis, is located in a region extending from positions -113 to -146 relative to the transcription initiation site of the ribonuclease gene. This region contains consensus sequences for known control transcriptional elements. The observed pattern of protein-DNA interactions is likely to be pancreas-specific as it could not be detected with nuclear extracts prepared from HeLa or bovine aorta endothelium cells.

A pancreatic exocrine cell factor and AP4 bind overlapping sites in the amylase 2A enhancer

A factor found in pancreatic exocrine cell lines and pancreatic nuclei binds selectively to the alpha-amylase 2A transcriptional enhancer. Pancreatic exocrine cell extracts protect asymmetrically an unusually large, 35 base pair region from DNase I digestion in vitro, suggesting the involvement of a multimeric DNA binding complex. We show that this region of the enhancer contains a major affinity recognition sequence for the HeLa transcription factor AP4. A 4 base pair mutation in the enhancer sequence shown previously to abolish activity in vivo [Boulet, A. M., Erwin, C. R., & Rutter, W. J. (1986) Proc. Natl. Acad. Sci. U.S.A. 83, 3599-3603] abolishes AP4 binding in vitro and weakens but does not eliminate the binding of adjacent enhancer factors. Further, sequences similar to the AP4 binding site are found within a consensus sequence of most pancreatic exocrine genes (Boulet et al., 1986). We have identified three AP4 binding sites in the pancreatic elastase gene: one occurs in the consensus sequence of the enhancer. Thus, protein(s) with the binding selectivity of AP4 may play a role in the expression of the pancreatic exocrine gene family.

Lowering of pancreatic amylase activity induced by cold exposure, fasting and adrenalectomy in rats

1. Alteration of amylase activity in the pancreas was studied in rats under different stressful situations. 2. Cold-exposed rats had reduced amylase activity, hypertrophy of adrenal glands, and lowered plasma insulin and glucose. 3. In fasted rats, amylase activity decreased and plasma insulin and glucose lowered. 4. Immobilized animals failed to produce the reduced amylase activity, despite existence of higher plasma corticosterone. 5. Adrenalectomy caused reduction of amylase activity accompanied by decreases in plasma insulin and glucose. 6. Glucocorticoid hormone is not correlated with suppression of amylase synthesis. The lowered amylase activity might involve changes in glycolytic flux and/or suppression of amylase synthesis by insulin deficiency.

Identification of a sequence in the PEPCK gene that mediates a negative effect of insulin on transcription

Phosphoenolpyruvate carboxykinase (PEPCK) governs the rate-limiting step in gluconeogenesis. Glucocorticoids and adenosine 3',5'-monophosphate (cAMP) increase PEPCK gene transcription and gluconeogenesis, whereas insulin has the opposite effect. Insulin is dominant, since it prevents cAMP and glucocorticoid-stimulated transcription. Glucocorticoid and cAMP response elements have been located in the PEPCK gene and now a 15-base pair insulin-responsive sequence (IRS) is described. Evidence for a binding activity that recognizes this sequence is presented.

Abnormalities of pancreatic exocrine function in obesity: studies in the obese mouse

Insulin is known to play a specific role in the biosynthesis of pancreatic amylase. In the insulin resistant adult C57 BL/6J--ob/ob mouse there is a reduction of pancreatic amylase content. The differences of enzyme content could not be explained by differences of food intake between obese and lean mice, but are more likely to be the consequence of insulin resistance at the level of the exocrine pancreas. By contrast, greater pancreatic content of amylase and lipase seen in young obese mice (less than 2-months old) was associated with the greater food intake of these mice with respect to lean controls.

Diabetes-induced alterations in the translational activity of specific messenger ribonucleic acids isolated from rat hearts

During diabetes mellitus, total proteins and ribonucleic acids are significantly decreased in the rat heart, and these parameters can be increased by insulin administration. To determine whether all ribonucleic acids are equally sensitive to insulin, we examined the influence of this hormone on individual translatable ribonucleic acids. Cardiac ribonucleic acid prepared from control, untreated, and insulin-treated diabetic animals was translated in vitro in the presence of [35S]methionine. The radiolabeled peptides were separated by two-dimensional gel electrophoresis and were analyzed by fluorometry. We found that diabetes induces both qualitative and quantitative changes in the predominance of a few specific translatable messenger ribonucleic acid species. The translation of 11 messenger ribonucleic acid species was significantly decreased and that of eight messenger ribonucleic acid species was significantly increased in diabetic preparation. Twelve of the 19 translation products were quantified by digital matrix photometry: three labeled peptides were observed only when cardiac ribonucleic acid from diabetic animals was added to the cell-free translation system, four new peptides appeared when cardiac ribonucleic acid from control animals was added, and although the remaining five peptides were translated in vitro after either control or diabetic ribonucleic acid was added, their relative predominance was altered 2- to 200-fold. When translation products coded for by messenger ribonucleic acids prepared from either diabetic or hypothyroid hearts were compared, we found that most of the alterations induced by diabetes were also induced by hypothyroidism.(ABSTRACT TRUNCATED AT 250 WORDS)

Members of the Amy-2 alpha-amylase gene family of mouse strain CE/J contain duplicated 5' termini

Several members of the Amy-2 alpha-amylase multigene family from the CE/J strain of mouse have been cloned in cosmid vectors. Structural analysis of these recombinants reveals that the cloned Amy-2 copies contain tandem 5' termini. The duplicated 5'-terminal elements, which lie upstream from the Amy-2 cap site, are separated from their Amy-2 homologues by about 8000 bases. The orientation of these 5' orphons is the same as that of Amy-2. Gene titration and cloning experiments suggest that at least four of the approximately 15 Amy-2 copies present in the CE/J genome contain 5' orphon elements. The extent of sequence homology between 5' orphons and their gene homologues has been determined by DNA sequence analysis. All the orphons are identical and contain the entire 185 base-pairs of the first exon, 49 base-pairs of the first intron and more than 400 base-pairs of the Amy-2 5' flanking region. Intron and flanking-region sequences of the orphons differ by about 20% from their Amy-2 counterparts, and the exon by about 8%. The TATA box and the cap site are conserved, while the ATG translation initiation signal is mutated to ATA in the orphon. No transcription initiation has been detected at the orphon cap site using run-off transcription in isolated pancreatic nuclei in vitro.