Mouse pancreatic acinar/ductular tissue gives rise to epithelial cultures that are morphologically, biochemically, and functionally indistinguishable from interlobular duct cell cultures.

Most of the pancreatic exocrine epithelium consists of acinar and intralobular duct (ductular) cells, with the balance consisting of interlobular and main duct cells. Fragments of mouse acinar/ductular epithelium can be isolated by partial digestion with collagenase and purified by Ficoll density gradient centrifugation. We investigated whether previously developed culture conditions used for duct epithelium would result in the selective survival and proliferation of ductular cells from the acinar/ductular fragments.

Culture of rat renal medullary tissue in media made hyperosmotic with NaCl and urea.

During antidiuresis, the rat kidney maintains a variable and steep osmotic gradient from the cortex (300 mOsm) to the inner medulla (at least 2,600 mOsm). Therefore, cells in the renal medulla must be able to adapt to a variably hyperosmotic environment. We have examined the ability of tissue fragments taken from various points on the cortical-medullary axis to survive and grow when cultured in media made hyperosmotic with urea and NaCl.

Isolation and culture of rhesus monkey pancreatic ductules and ductule-like epithelium.

The objective of this work was to devise methods for the isolation and culture of duct epithelium from rhesus monkey pancreas with the expectation that such methods would be applicable to the human pancreas. This objective is important because of the role duct epithelium appears to play in human diseases such as pancreatic cancer and cystic fibrosis. Pieces of freshly procured pancreas were minced and enzymatically dissociated, resulting in a digest that contained a few isolated ductules (intralobular ducts) as well as numerous small tissue fragments consisting of roughly equal proportions of ductular and acinar cells.

Histochemical distribution of carbonic anhydrase in rat and rabbit lacrimal gland.

Purpose: The purpose of this study was to examine the histochemical distribution of carbonic anhydrase (CA) in lacrimal glands from rats and rabbits; and to determine if age- and/or sex-related differences exist in the amount and distribution of CA in the rat lacrimal gland.

Methods: Lacrimal glands from young (3-12 wk) and aged (2-2.5 yr), male and female F344 rats and male rabbits were fixed in 1% paraformaldehyde and embedded in glycolmethacrylate.

Carbonic anhydrase II gene expression in mouse pancreatic duct cells.

Our goal is to create a transgenic mouse model for human pancreatic duct cell adenocarcinoma using the promoter/enhancer region of the carbonic anhydrase (CA) II gene to drive the expression of SV-40 T-antigen in pancreatic duct cells. This requires that the CA II gene be expressed in mouse pancreatic duct cells and not in other pancreatic cells, as has already been shown to be the case in the human and guinea pig pancreas. We have shown with an enzyme histochemical assay that mouse pancreatic duct cells contain CA activity in both intact pancreas and cultured interlobular duct epithelium.

The pancreatic duct cell.

A conference entitled "The Pancreatic Duct Cell: Physiology and Pathophysiology" was held September 26-29, 1991, at the Engineering Society Club of Baltimore. The conference was organized by a committee consisting of John Williams of the University of Michigan (Co-Chair), Daniel Longnecker of Dartmouth Medical School (Co-Chair), Barry Agent of Newcastle Upon Tyne, Raymond Frizzell of the University of Alabama at Birmingham, Sherwood Githens of the University of New Orleans, and Sarah Kalser of the NIDDK. The meeting was sponsored by the NIDDK with contributions from NCI, NIDR, ADAMHA, and the American Gastroenterological Association.

Rat pancreatic duct epithelium cultured on a porous support coated with extracellular matrix.

A method was developed for the isolation and culture of rat pancreatic duct epithelium of predominantly interlobular duct origin. Purified duct epithelial fragments were cultured on a porous support (HATF filters, Millipore) at 37 degrees C in a 1:1 mixture of Dulbecco's Modified Eagle's and Ham's F-12 media supplemented with insulin, cholera toxin, epidermal growth factor, bovine pituitary extract (BPE), and Nu-Serum (Collaborative Research) in a humidified atmosphere of 95% air and 5% CO2. The filters were coated with an extracellular matrix of either rat tail collagen or Matrigel (Collaborative Research), both of which significantly enhanced growth of the duct epithelium in comparison with untreated filters.

The developmental accumulation of gamma-glutamyl transferase in the pancreas of the rat.

The developmental accumulation of pancreatic exocrine secretory enzymes is well defined, but little is known of the development of other enzymes in the pancreas. This report focuses on the developmental accumulation of gamma-glutamyl transferase (GGT), a membrane-bound ectoenzyme whose specific activity in the pancreas is the second largest among rat organs. GGT activity is large in organs with active glutathione metabolism.

Glutathione metabolism in the pancreas compared with that in the liver, kidney, and small intestine.

The pancreas plays a major role, along with the kidney, liver, small intestine, and several other organs, in glutathione (GSH) metabolism, as evidenced by the large concentration of GSH in the pancreas, its rapid turnover rate, and the presence, at significant levels, of various enzymes involved in GSH metabolism. The pancreas appears to obtain much of the cysteine that is required for both GSH and protein synthesis by hydrolyzing plasma GSH to its constituent amino acids and then transporting cysteine into the cells. GSH hydrolysis is accomplished by the ectoenzymes gamma-glutamyl transferase (GGTase) and aminopeptidase N, both of which are present in the pancreas.

Rat renal papillary tissue explants survive and produce epithelial monolayers in culture media made hyperosmotic with sodium chloride and urea.

The capacity of papillary cells to adapt to elevated osmotic concentrations is unusual among mammalian cells. This capacity was evaluated by using primary tissue culture. Viability and growth of cells in rat renal papillary tissue explants were assessed after culture in media adjusted with urea and sodium chloride to various osmotic concentrations between 300 and 1,500 mOsm/kg water.

How different DNA sequences are recognized by a DNA-binding protein: effects of partial proteolysis.

MDBP is a sequence-specific DNA-binding protein from mammals that recognizes a variety of DNA sequences, all of which show much homology to a partially palindromic 14 base-pair consensus sequence. MDBP subjected to limited proteolysis and then incubated with various specific oligonucleotide duplexes yielded two types of complexes. The relative concentrations of these complexes varied greatly depending on how closely the MDBP site matched the consensus sequence.

Rat pancreatic interlobular duct epithelium: isolation and culture in collagen gel.

Interlobular duct fragments from the pancreas of the rat were isolated by collagenase digestion and filtration, embedded in a matrix of rat-tail collagen, and cultured in a 1:1 mixture of Dulbecco's minimal essential and Ham's F12 media supplemented with cholera toxin (CT, 100 ng/ml) and epidermal growth factor (EGF, 10 ng/ml) in addition to supplements used previously, thereby improving the yield of ducts by a factor of two compared with previous results. The ducts were harvested by digestion of the collagen matrix with collagenase and were then dissociated by treatment with EDTA in divalent cation-free salt suspended in collagen and cultured as were the ducts. Numerous cysts appeared as a function of time and some of these enlarged dramatically.

The pancreatic duct cell: proliferative capabilities, specific characteristics, metaplasia, isolation, and culture.

The pancreatic duct cell, although a minor cell type of the pancreas, plays an important role in fluid/electrolyte and mucin secretion, and has been implicated in the development of pancreatic cancer, alcoholic pancreatitis, and cystic fibrosis. In the normal pancreas, the duct cell has the same low proliferative rate as acinar and endocrine cells. Under certain pathological circumstances, duct cells, as well as acinar and islet cells, may be stimulated to proliferate more rapidly.

Biochemical and histochemical characterization of cultured rat and hamster pancreatic ducts.

Pancreatic duct fragments were isolated from rat and hamster pancreas and were cultured in an agarose matrix for up to 8 weeks (rat) or 20 weeks (hamster). The fragments consisted predominantly of duct epithelium, lesser numbers of stromal and atrophied acinar cells, and small numbers of islet cells. Hamster ducts averaged 3 micrograms protein per duct while rat ducts averaged 1 microgram, and the protein:DNA ratio of both types of ducts was less than that of whole pancreas.

Effect of duct obstruction on histology and on activities of gamma-glutamyl transferase, adenosine triphosphatase, alkaline phosphatase, and amylase in rat pancreas.

The effect of pancreatic duct obstruction on the activities of amylase and three nonexocrine pancreatic enzymes was studied in the rat. gamma-Glutamyl transferase (GGTase) activity, which is localized primarily in the plasma membrane of acinar cells, disappeared from the acinar basolateral plasma membrane and declined in specific activity by 80% over a seven-day experimental period. Mg-ATPase, localized primarily in the apical plasma membrane of acinar cells, simultaneously declined in activity in acinar cells but increased in activity in connective tissue.

Histidyl-proline diketopiperazine cyclo (His-Pro): identification and characterization in rat pancreatic islets.

Measurements of cyclo (His-Pro) in the pancreas were carried out in the rat by a specific radioimmunoassay. Cyclo (His-Pro)-like immunoreactivity was identified in pancreatic islets with a mean concentration of 2023 pg/mg protein, 88-fold higher than that of the whole pancreas. Cyclo (His-Pro) immunoreactivity from pancreatic extracts was indistinguishable immunologically and chromatographically from synthetic cyclo (His-Pro).

Tissue-specific differences in DNA methylation in various mammals.

The only naturally occurring modified base in vertebrate DNA is 5-methylcytosine. Using a precise high-performance liquid chromatographic analysis of DNA enzymatically digested to deoxynucleosides, we have shown that rats, mice and four types of monkey display tissue-specific as well as species-specific differences in the extent of methylation of their cytosine residues. Several similarities in the patterns of tissue-specific DNA methylation in these mammals and in the previously studied human samples were observed.

Localization of alkaline phosphatase and adenosine triphosphatase in the mammalian pancreas.

The light microscopic histochemical localization of alkaline phosphatase (APase) and adenosine triphosphatase (ATPase) in the mammalian pancreas is reviewed. Capillary endothelial cells usually exhibit both enzymes. ATPase is usually present in endocrine and acinar cells and absent in duct cells.

Morphologic and biochemical characteristics of isolated and cultured pancreatic ducts.

Rat and hamster pancreatic ducts were isolated by digestion with collagenase plus chymotrypsin and were cultured for eight weeks in an agarose matrix. Freshly isolated and cultured ducts were characterized morphologically and biochemically. The in vivo morphology of the ducts was maintained in vitro, although certain differences were noted.

Ducts of the rat pancreas in a agarose matrix culture.

Interlobular and intralobular ducts isolated from the pancreas of the rat by digestion with collagenase and chymotrypsin were cultured in an agarose matrix containing CMRL-1066 supplemented with insulin, dexamethasone, L-glutamine, soybean trypsin inhibitor, antibiotics, and fetal bovine serum. The cut ends of most interlobular ducts sealed to create enclosed lumina. Some ducts retained their original cylindrical organization; others enlarged to varying degrees, resulting in structures that ranged from cylindrical to spherical in shape.

Characterization of ducts isolated from the pancreas of the rat.

Rat pancreases were minced and treated with collagenase or collagenase supplemented with chymotrypsin to yield a mixture of ducts, islets, acinar cell clusters, blood vessels, and nerves. Histologically and ultrastructurally, the isolated tissues resembled their in situ counterparts in most respects, the major difference being the destruction of the basement membranes (basal laminae). Ducts ranging in size from the common bile/main pancreatic duct to the intercalated ducts were identified in the digest, although interlobular ducts were most frequently observed.

Glucocorticoids modulate the in vitro development of the embryonic rat pancreas.

The effect of the glucocorticoid analogue, dexamethasone, on the development of the embryonic pancreas was studied in tissue culture. It specifically enhances the accumulation of exocrine enzymes without altering the level of general cell proteins. The enhancement, however, is not symmetrical: the cellular levels of the two major exocrine products, amylase and chymotrypsinogen, are increased about 10- and 2-fold, respectively.