Short-term Organ Culture Research Articles

Skin penetration and metabolism of topically applied chemicals in six mammalian species, including man: An in vitro study with benzo[a]pyrene and testosterone

Percutaneous absorption of chemicals is generally considered a diffusional process, with the rate-limiting barrier being the nonviable stratum corneum. Because viable skin possesses enzyme activities, including those involved in the metabolism of xenobiotics, the extent to which cutaneous metabolism may influence the percutaneous fate of topically applied chemicals in the skin was examined in mammalian skin maintained as short-term organ cultures. Skin samples from mouse, rat, rabbit, guinea pig, marmoset, and man were examined. The results from studies with benzo[a]pyrene (BP) and testosterone showed that, in all species, metabolic viability was a major factor involved in the in vitro skin permeation of surface-applied chemicals. Permeation was accompanied by extensive cutaneous “first pass” metabolism; both parent compounds and a full spectrum of metabolites were found in the receptor fluid from viable skin preparations. However, in previously frozen nonviable skin preparations, essentially only unchanged parent compounds were detected in the receptor fluid. Permeation of BP and testosterone was highest in mouse skin, and significant species variations in the metabolite profiles were observed. Studies with mouse skin also demonstrated that induction of cutaneous drug-metabolizing enzymes can result in a two- to threefold increase in the in vitro permeation of topical BP, and a significant reduction in permeation was observed when KCN was added to the perfusion medium. These results indicate that diffusional and metabolic processes are intimately involved in the percutaneous fate of surface-applied chemicals. The relative importance of these processes is dependent upon the physicochemical properties of the compounds and the metabolic capabilities of the skin toward the compounds in question. Furthermore, these findings suggest that meaningful in vitro studies on skin absorption should consider both diffusion and cutaneous biotransformation of the applied compound.

Selective toxicity of 1-naphthol to human colorectal tumour tissue.

1-Naphthol was selectively toxic to human colorectal tumours compared to corresponding normal colonic tissue removed at surgery and maintained in short-term organ culture. Nineteen of 24 tumours studied have shown a significant differential response. Three human colonic adenocarcinoma xenografts, in the short-term organ culture system, displayed the same response to 1-naphthol as primary tumours removed at surgery. 1-Naphthol, 1,2- and 1,4-naphthoquinone were also toxic to two human colonic adenocarcinoma cell lines, LoVo and COLO 206. The selective toxicity of 1-naphthol is mediated in part through an accumulation of 1-naphthol in the tumour tissue due to impaired conjugation by the tumour. The higher concentrations of 1-naphthol may then exert their toxicity either directly or by formation of naphthoquinones. Some indirect evidence was obtained for the possible involvement of 1,2- or 1,4-naphthoquinone in the cytotoxicity of 1-naphthol. Our studies suggest that further studies are warranted of the possible use of 1-naphthol or related compounds as antitumour agents.

Modulation of arginine decarboxylase activity in cucumber (Cucumis sativus) cotyledons in short-term organ culture

Among the various amines administered to excisedCucumis sativus cotyledons in short-term organ culture, agmatine (AGM) inhibited arginine decarboxylase (ADC) activity to around 50%, and putrescine was the most potent entity in this regard. Homoarginine (HARG) dramatically stimulated (3- to 4-fold) the enzyme activity. Both AGM inhibition and HARG stimulation of ADC were transient, the maximum response being elicited at 12 h of culture. Mixing experiments ruled out involvement of a macromolecular effector in the observed modulation of ADC. HARG-stimulated ADC activity was completely abolished by cycloheximide, whereas AGM-mediated inhibition was unaffected. Half-life of the enzyme did not alter on treatment with either HARG or AGM. The observed alterations in ADC activity are accompanied by change in Km of the enzyme. HARG-stimulated ADC activity is additive to that induced by benzyladenine (BA) whereas in presence of KCl, HARG failed to enhance ADC activity, thus demonstrating the overriding influence of K+ on amine metabolism.

Apolipoprotein E synthesis in peripheral tissues of nonhuman primates.

The tissue distribution of apolipoprotein (apo) E synthesis in the cynomolgus monkey, Macaca fascicularis, was determined via short-term organ culture with radiolabeled amino acid. Tissue extracts were reacted with antiserum to apo-E, and immunoprecipitates were analyzed by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. Newly synthesized apo-E was detected in liver, adrenal, testis, lung, spleen, mesenteric lymph node, and kidney. Peripheral and hepatic apo-E showed the same electrophoretic mobility. High resolution two-dimensional gel analysis showed that newly synthesized apo-E exists in two major isoforms in each tissue examined. Comparison of isoform patterns and mixing experiments showed that newly synthesized apo-E isoforms have identical charge properties in each tissue examined. These data indicate that numerous peripheral tissues synthesize apo-E that is indistinguishable from liver apo-E by the criteria tested. Measurements of relative synthetic capacities illustrate that apo-E is a moderately abundant protein product of a variety of peripheral tissues although quantitative differences in apo-E synthesis occur. Apo-E mRNA from cynomolgus monkey liver and human Hep G2 cells co-migrated with an electrophoretic mobility corresponding to approximately 1200 nucleotides. Apo-E mRNA from liver, brain, thymus, kidney, testis, lymph node, and spleen was the same size. Primer extension analysis yielded a cDNA product representing complete copying of the 5' untranslated region of human Hep G2 apo-E mRNA. A cDNA of identical size was produced with cynomolgus monkey apo-E mRNA from liver, spleen, brain, lymph node, kidney, lung, and thymus. These data suggest that transcription of the apo-E gene is initiated at or near the same site in each tissue examined.

Topographic localization of a 116,000-dalton protein in cartilage.

A disulfide-bonded greater than 400,000-dalton (greater than 400-kD) protein with 116-kD subunits in hyaline cartilage from several species has recently been described. It constitutes 2-4% of the total noncollagenous protein in 4 M guanidinium chloride extracts of normal articular cartilage and accounts for most of the total noncollagen, nonproteoglycan protein synthesized in short-term organ cultures of canine articular cartilage. In the present study, immunofluorescence techniques were used to examine the topographic distribution of the 116-kD subunit protein in normal cartilage. In specimens of normal adult articular cartilage from several species, the protein was located throughout the matrix. More intense staining was observed at the articular surface than in the remainder of the uncalcified cartilage. In contrast, in fetal cartilage, the protein was uniformly distributed throughout the matrix without a marked increase in surface staining. Normal canine menisci and annulus fibrosus also demonstrated moderate fluorescence after incubation with the antiserum to the 116-kD subunit protein. Normal canine nucleus pulposus, synovium, aorta, and monolayer cultures of canine synovial cells exhibited only weak immunofluorescence after incubation with the antiserum. Therefore, the 116-kD subunit protein appears to be a ubiquitous matrix protein in cartilage.

Comparative studies of the metabolic activation of chrysene in rodent and human skin

Metabolism and activation of chrysene was examined in mouse, rat and human skin using a short-term organ culture technique. Mouse skin released larger quantities of free dihydrodiols into the culture medium than either rat or human skin and greater quantities of chrysene metabolites became covalently bound to the DNA of mouse skin. The stereochemistry of the chrysene-1,2-diol that was formed by each skin type was examined using high-performance liquid chromatography (HPLC) with a chiral stationary phase to resolve the enantiomers. It was found that in each case the (-)-enantiomer predominated. When hydrolysates of DNA extracted from rodent or human skin that had been treated with 3H-labelled chrysene were chromatographed on Sephadex LH-20 columns, the elution profiles of the hydrocarbon-DNA adducts were found to vary between the species studied. Further examination using HPLC showed that some of the adducts formed in skin had the chromatographic characteristics of adducts formed when the anti-isomer of the 'bay-region' diol-epoxide of chrysene (r-1,t-2-dihydroxy-t-3,4-oxy-1,2,3,4-tetrahydrochrysene) reacted with DNA and that others had the characteristics of triol-epoxide adducts.

Evidence of DNA repair in organ cultures of hamster tracheal epithelium following exposure to gas phase singlet oxygen

Autoradiographic identification of unscheduled DNA synthesis (UDS) in short-term organ culture of hamster tracheal epithelium has been used as a predictive test for mutagenic and/or carcinogenic compounds. Tracheal explants were treated for 2 h with singlet delta oxygen plus [3H]thymidine. Silver grains over the nuclei of epithelial cells from the superficial layer of the mucosa were observed, indicating UDS. Control cultures, exposed to the gas phase without singlet oxygen, failed to elicit UDS.

Conversion of 1-naphthol to naphthoquinone metabolites by rat liver microsomes: Demonstration by high-performance liquid chromatography with reductive electrochemical detection

1-Naphthol has recently been shown to be selectively toxic to short-term organ cultures of human colorectal tumor tissue. The mechanism underlying 1-naphthol's selective toxicity is as yet unknown, but may be due to the formation of naphthoquinone metabolites, which are known to be highly toxic to tumor cells. By using high-performance liquid chromatography with reductive electrochemical detection, it has been possible to show that 1-naphthol is converted to naphthoquinone metabolites by rat liver microsomes. At least two metabolic pathways, independent of cytochrome P-450, appear to be involved. Iron-dependent lipid peroxidation appears to be responsible for at least part of the conversion of 1-naphthol to predominantly 1,4-naphthoquinone, and it seems likely that superoxide anion radical generation by NADPH-cytochrome P-450 reductase could also catalyze this conversion. 1-Naphthol therefore seems to be converted to cytotoxic naphthoquinone metabolites by mechanism(s) dependent upon the generation of free radicals in rat liver microsomes. The results also demonstrate the utility of HPLC with reductive electrochemical detection for investigations of quinone metabolite formation and the measurement of quinones of both physiological and environmental interest.

Characterization of newly synthesized proteoglycans from rabbit menisci in organ culture.

Rabbit menisci were incubated with Na2 35SO4 in short-term organ culture to label newly synthesized proteoglycans. The radioactive products present in both tissue and culture medium were characterized separately with respect to distribution after ultracentrifugation in CsCl isopycnic density gradients, hydrodynamic size, interaction with hyaluronic acid, and glycosaminoglycan composition (types, size and content). Analysis of proteoglycan size by gel-filtration chromatography of the most-dense CsCl fractions (A1) on Sephacryl S-500 (associative conditions) resolved three species. A peak with Kav. approx. 0.7 was present in each chromatogram, and constituted the principal component in tissue extracts. Two other peaks with Kav. values of approx. 0.2 and 0.45 were also found. When the A1 fraction from tissue was subjected to CsCl-density-gradient ultracentrifugation under dissociative conditions, 71% of the recovered radioactivity was present in the most dense (A1D1) fraction. Incubation with hyaluronic acid of either A1 or A1D1 fraction from associative extract did not alter the apparent size of the labelled product, indicating a lack of aggregate formation. Meniscal proteoglycans showed an unusual and marked tendency to adsorb irreversibly to agarose and agarose-containing gel-filtration-chromatography media. High-pressure liquid-chromatographic analyses indicated that the sulphated glycosaminoglycans consisted of chondroitin 6-sulphate (72%), chondroitin 4-sulphate (19%) and dermatan sulphate (5%). Endo-beta-galactosidase (keratanase) digestion of the material failed to detect the presence of keratan sulphate. Of the labelled glycosaminoglycans, 95% was eluted from Sephacryl S-400 as a single symmetrical peak with a Kav. of 0.5. The results of studies with tissue extracts and culture medium were similar.

Unscheduled DNA Synthesis in Human Bronchial Epithelium Treated With Various Chemical Carcinogens In Vitro<xref ref-type="fn" rid="FN2">2</xref><xref ref-type="fn" rid="FN3">3</xref><xref ref-type="fn" rid="FN4">4</xref>

A system was developed in which organ culture of human bronchial epithelium was used in combination with autoradiography for quantitative measurement of unscheduled DNA synthesis (UDS) in bronchial epithelial cells. Human bronchi obtained at surgery were cut into small sections and treated with various carcinogens plus [methyl-3H]thymidine in short-term organ culture. Significant numbers of silver grains, indicating UDS, were detected on the nuclei of epithelial cells of human bronchi treated with carcinogens, and the numbers were proportional to the concentrations of carcinogens. In this system seven representative carcinogens induced UDS. Four active metabolites of benzo[a]pyrene, and benz[a]anthracene also were found to induce very active UDS in human bronchial epithelium. These findings suggest that human bronchial epithelial cells can repair different types of DNA modification induced by chemical carcinogens.

The ontogeny of expression of murine metallothionein: Comparison with the α-fetoprotein gene

The ontogeny of expression of mouse metallothionein was studied by RNA dot and Northern blot hybridization using a cloned cDNA probe. In some instances the synthesis of metallothionein was analyzed by cell-free translation of RNA as well as pulse-labeling of proteins in short-term organ cultures followed by polyacrylamide gel electrophoresis. Interesting parallels between metallothionein and α-fetoprotein gene expression during development were noted. Like α-fetoprotein mRNA (Dziadek and Andrews, 1983), metallothionein mRNA was found to be abundant in developing liver as well as in visceral yolk sac endoderm. In addition, metallothionein mRNA was abundant in parietal yolk sac. During liver development metallothionein and α-fetoprotein mRNAs were abundant by Day 12 of gestation, increasing to maximal levels on Day 16 and decreasing during late fetal and neonatal life to basal levels in adult. Metallothionein mRNA increased in maternal liver and was also abundant in certain hepatomas. Synthesis of metallothionein and levels of metallothionein mRNA in visceral yolk sac increased from Day 9 of gestation to maximal levels on Days 11–12 and then decreased abruptly after Day 15. RNA from differentiated teratocarcinoma cells with primitive, parietal or visceral endoderm characteristics each contained high levels of metallothionein mRNA, whereas, levels of this mRNA varied widely among embryonal carcinoma stem cell lines. α-Fetoprotein mRNA was not detected in embryonal carcinoma cells but was expressed in visceral endoderm-like differentiated cells. These results indicate that parietal and visceral endoderm cells actively express the metallothionein gene and further suggest that expression may be initiated at the earlier stage of primitive endoderm.

Plasminogen Activators in Human Malignant Melanoma<xref ref-type="fn" rid="FN2">2</xref>

Metastatic malignant melanomas from 16 patients, extracted with Triton X-100, were analyzed for plasminogen activator activity by azocaseinolysis . In 6 cases tumor explants were set up also in short-term organ culture, and the rate of plasminogen activator secretion into the culture medium was determined. Both the extractable activator content [8.66 +/- 7.8 "Committee on Thrombolytic Agents" (CTA) U/g tissue] and the activator secretion rates (0.90 +/- 1.6 CTA U/g/hr) were low in comparison with values for other human tumors. In addition to the activity, the type of plasminogen activator also was determined by immunoinhibition with goat antihuman urokinase antibody in the azocaseinolytic assay, as well as by sodium dodecyl sulfate (SDS) gel electrophoresis followed by zymography on fibrin-agar, in the presence and absence of antibody. On the average, 77% of the activator activity was of the urokinase type in the extracts, and 90% in the culture fluids. Immunoperoxidase reaction for the detection of urokinase showed this enzyme to be localized mainly in the cell membrane of the melanoma cells; stromal elements showed no specific staining. These results are of interest in view of the findings made recently by investigators in several laboratories that in all but one of the melanoma cell cultures derived from metastatic human tumors, only the vascular type ("tissue activator") was cell associated or was secreted into the culture medium. The possible reasons for this discrepancy are discussed.

Conjugation of 1-naphthol by human colon and tumour tissue using different experimental systems.

The metabolism of 1-naphthol, a model phenolic substrate, to its glucuronic acid and sulphate ester conjugates has been studied in short-term organ cultures of normal human colon and tumour tissue, subcellular fractions of these tissues, human colonic tumour cell lines and human colonic tumour xenografts. Normal colonic tissue, in short-term organ culture, formed more 1-naphthyl sulphate than glucuronic acid conjugates. In contrast the colonic tumours, under the same conditions, produced more 1-naphthyl beta-D-glucuronide than 1-naphthyl sulphate. A marked interindividual variation in sulphate ester and glucuronic acid conjugation was noted in both normal and tumorous colon. The conjugation of 1-naphthol was also investigated, using subcellular fractions, where the metabolism found with normal colon reflected that observed utilizing short-term organ culture, but that from colonic tumour samples did not. Cell lines derived from human colonic adenocarcinomas metabolised 1-naphthol almost exclusively to its glucuronic acid conjugate. Xenografts derived from human colonic tumours formed similar conjugates to surgical samples in culture. Thus somewhat different results were obtained dependent on the experimental model chosen. However, in all colonic tumour systems studied, when the cells remained intact and where tissue architecture was maintained, 1-naphthol was metabolised predominantly to its glucuronic acid conjugate.

Synthesis of interphotoreceptor retinoid-binding protein (IRBP) by monkey retina in organ culture: Effect of monensin

Whole monkey retinas were incubated in short-term organ culture with either radiolabeled amino acids or glucosamine. Soluble retinal proteins and proteins in the culture medium were analyzed by SDS-polyacrylamide gel electrophoresis. Fluorography showed that the interphotoreceptor retinoid-binding protein (IRBP), a 146,000 M r glycoprotein localized in the extracellular matrix, is synthesized by the neural retina and rapidly secreted into the medium. Secretion is blocked by 10-5M monensin. No significant IRBP synthesis was observed in the pigment-epithelium-choroid complex. IRBP is thus the major component synthesized and secreted by the neural retina into the interphotoreceptor space. This, and its affinity for retinoid makes it a prime candidate for an extracellular retinoid transport vehicle.

The metabolism of benzo(a)pyrene by the lungs of asbestos exposed rats

A group of Fischer F344 rats were exposed to an aerosol of crocidolite asbestos for 36 d. Short-term organ cultures were established from the lungs of these animals and from a similar control group. The ability of these cultures to metabolise benzo(a)pyrene to water-soluble and ether-soluble forms was measured. Crocidolite treatment reduced the lungs ability to produce both types of metabolite although only the reduction in water-soluble forms was significant. DNA binding increased in cultures from treated rats, though this was not statistically significant. The possible relationship of these results to asbestos pathogenesis is discussed.

Effect of experimentally induced calcium deficiency on the developmental expression of collagen types in chick embryonic skeleton

In order to investigate the effect of embryonic calcium deficiency on the cellular differentiation processes in embryonic skeletogenesis, chick embryos were maintained in long-term shell-less cultures in vitro. The absence of the eggshell, which normally provides over 120 mg of calcium to the embryo during the course of development, resulted in severely retarded and anomalous skeletal formation. The pattern of cytodifferentiation in the skeletal elements during development was assessed by examining collagen type synthesis in both endochondral and intramembranous bones of normal and shell-less embryos as a function of developmental age. Skeletal tissues obtained from these embryos at various developmental stages were maintained in short-term organ culture in medium containing [ 3H]Pro. The metabolically labeled collagen was isolated from these tissues and typed biochemically based on electrophoresis, ion-exchange chromatography, differential salt fractionation, zone precipitation chromatography, and CNBr peptide mapping. The results indicate that, compared to chronologically equivalent normal controls, calcium-deficient skeletal elements from shell-less embryos appeared to fail to mature into complete bony tissues and instead exhibited partial cartilage phenotype with the expression of cartilage-specific type II collagen.

Production of collagenase and inhibitor (TIMP) by intracranial tumors and dura in vitro.

The production of collagenase and collagenase inhibitor (TIMP) by various intracranial tumors (25 meningiomas, eight gliomas, seven metastases, four pituitary adenomas, and five others) was studied in short-term organ culture. While meningiomas produced negligible amounts of collagenase, two metastatic carcinomas of bronchial and breast origin produced significant amounts of the enzyme. Cultures of dura from an invasive meningioma and of bone invaded by a meningioma also produced collagenase. In varying amounts, TIMP was detected in culture media from most of the tumors studied; invasive tumors tended to produce less TIMP than noninvasive tumors. The results are discussed in relation to current views on tissue degradation and mechanisms of tumor invasion.

Metabolic activation of benzo[ a]pyrene in human skin maintained in short-term organ culture

The metabolic activation of benzo[ a]pyrene (BP) was examined in six samples of human skin after topical application of the hydrocarbon to the skin in short-term organ culture. The results show that all of the samples were capable of metabolizing BP to water-soluble products and to ethersoluble products that included the 4,5-, 7,8- and 9,10-dihydrodiols and a product which had chromatographic properties identical with those of authentic trans-11,12-dihydro-11,12-dihydroxybenzo[ a]pyrene (BP-11,12-diol). The major BP-deoxyribonucleoside adduct detected in each skin sample appeared to be formed from the reaction of r-7, t-8-dihydroxy- t-9,10-oxy-7,8,9,10-tetrahydrobenzo[ a]pyrene ( anti-BP-7,8-diol 9,10-oxide) with deoxyguanosine residues in DNA.

Increased phosphate efflux from acinar cell during protein secretion.

The permeability of the pancreatic epithelium to two water soluble molecules, sucrose and inulin, increases when protein secretion is augmented by a cholinergic agonist. An increase in the permeability of passive paracellular shunts (3) has been proposed to account for these observations. In the present experiments we have measured the distribution of another molecule, phosphate ion, across the epithelium by following its secretion from the cannulated duct of whole-rabbit pancreas in short-term organ culture. A cholinergic stimulant increases phosphate ion concentration in secretion in a similar fashion to that seen for the watersoluble nonelectrolytes. However, both the unstimulated rate of phosphate secretion and the increase observed with cholinergic stimulation were not dependent on the presence of the ion in the medium, and therefore its secretion in both cases reflects phosphate efflux from the cell and not its paracellular transport. The results indicate that either the phosphate ion is excluded from paracellular shunts or that such shunts do not contribute substantially to the transpancreatic passage of molecules of this size.

Hyaluronate Synthesis by Synovial Villi in Organ Culture

Individual canine synovial villi were used to establish short-term synovial organ cultures. These villi incorporated 3H-glucosamine into highly-polymerized 3H-hyaluronic acid (3H-HA), which was the only 3H-glycosaminoglycan identified in the culture medium. Some 3H-HA, and larger amounts of other 3H-glycosaminoglycans, were recovered from cultured tissues. Culture medium 3H-HA content was proportional to the surface area of cultured villi. Organ cultures of nonvillous synovium were compared with villi; nonvillous cultures synthesized less 3H-HA per mm2 of their synovial intimal surface than villi. These cultures complement cell culture techniques for in vitro studies of synovial lining cell function.