Regulation of cholesterol esterification by micellar cholesterol in CaCo-2 cells

The regulation of acylcoenzyme A:cholesterol acyltransferase (ACAT) activity by cholesterol was studied in an established enterocyte cell line. CaCo-2 cells were grown in culture to confluency and dome formation. They were characterized morphologically by light and transmission electron microscopy. During the culture period, ACAT activity remained stable while the activities of the brush border enzymes sucrase and alkaline phosphatase progressively increased with time and plateaued 12 days after plating. As determined by the rate of incorporation of oleic acid into the individual lipid classes, the rate of triglyceride synthesis was twice that of phospholipid and 15 times that of cholesteryl ester synthesis in these cells. Incubating CaCo-2 cells with cholesterol solubilized in taurocholate micelles resulted in a significant increase in ACAT activity (149 +/- 5 pmol/dish per 2 hr vs. 366 +/- 5, (P less than 0.001) without changing the rates of triglyceride or phospholipid synthesis. The stimulation of ACAT activity by micellar cholesterol was rapid, occurring within 5 min and reaching a maximal effect by 2 hr. The regulation of ACAT activity by cholesterol was directly dependent upon the concentration of cholesterol solubilized in the micelle and was independent of protein synthesis. Incubating CaCo-2 cells with micellar cholesterol did not increase the esterification of, nor did the cholesterol enter the pool of, newly synthesized or performed cholesterol within 2 hr. The micellar cholesterol that was taken up by the cells was esterified within 5 min after starting the incubation. Progesterone, a known ACAT inhibitor, significantly decreased the rate of esterification of intracellular micellar cholesterol proving that the cholesterol taken up by CaCo-2 cells was indeed entering the ACAT pool. Despite increasing amounts of unesterified cholesterol entering the cells via micelles, the percent of cholesterol that was esterified at any one time remained constant at 1%. The results suggest that ACAT activity in CaCo-2 cells is stimulated by cholesterol delivered to the cells by way of taurocholate micelles. The rapid entry of this sterol into the ACAT substrate pool suggests that ACAT activity in CaCo-2 cells is regulated by the expansion of the cholesterol substrate pool that is being utilized by an unsaturated ACAT enzyme.     

Behavior of HEp-2 cell line cells, their nuclei and nucleoli during cultivation and under the effect of Na-ds-RNA

The behavior of human larynx cancer cells (HEp-2) and of their nuclei and nucleoli during the cultivation without the influence of Na-ds-RNA and after its introduction into the medium was investigated by methods of cytomorphometry and cytophotometry. The density of monolayer (the number of cells on the area unit), percentage of two-nuclear cells, the number of nucleoli in the nuclei, mitotic coefficient, volume and total surface of nuclei and nucleoli have been measured. In addition, the mass of DNA in the nuclei and that of the total RNA and DNA in the nuclei and in each nucleolus was measured. Cells in the culture, not subjected to the influence of Na-ds-RNA, were weakly differentiated, kept active proliferation, and their population contained a small number of two-nuclear elements and a high share of multi-nuclear cell. During cultivation, these indices became even more pronounced, which is typical for the increase in cell malignancy. Under the influence of Na-ds-RNA, the proliferate activity decreases, the number of double-nuclear cells increases, while that of multi-nucleolar cell decreases; also, the share of cells with one- and two-nucleolar nuclei increases. The authors conclude that Na-ds-RNA may have antineoplastic activities, clearly evidenced from its influence on the culture of transformed HEp-2 cells.     

Regulated vectorial secretion of cholesteryl ester transfer protein (LTP-I) by the CaCo-2 model of human enterocyte epithelium

We have investigated the human CaCo-2 enterocyte model for secretion of the plasma cholesteryl ester transfer protein, LTP-I. CaCo-2 cells secrete a cholesteryl ester transfer protein which possesses molecular identity with plasma LTP-I, demonstrated by anti-LTP-I immunoblot analysis and immunoinhibition of all cell-secreted cholesteryl ester transfer activity. When CaCo-2 are cultured on permeable membranes, cholesteryl ester transfer activity is detected only in the lower culture compartment. Thus, CaCo-2 vectorially sort and secrete LTP-I, as well as the intestinal apolipoproteins, from the basolateral cellular domain. Over a 24-h period, CaCo-2 secrete cholesteryl ester transfer activity in a time-dependent manner, at approximately twice the rate of HepG2. Furthermore, CaCo-2 enterocytes, but not HepG2 hepatocytes, regulate LTP-I secretion in response to fatty acid concentration in the culture medium. Based on these observations, we speculate that the intestine may be the principal regulated source of human plasma LTP-I.     

Differences in cell division and thymidine incorporation with rat and primate fibroblasts in collagen lattices.

Human and gorilla dermal fibroblasts, primate cells, suspended in a collagen lattice, do not divide for the first 3 days. In contrast, rat fibroblasts divide within 24 hr. In this study, the proliferation of rat fibroblasts were compared to primate fibroblasts. Rat fibroblasts in monolayer culture increase from 100,000 to 355,000 in 2 days, and human cells increase from 100,000 to 436,000 in the same period. An initial seeding of 100,000 rat fibroblasts suspended in collagen increased to 163,000 cells in 2 days. An initial 100,000 human fibroblasts seeded in collagen decreased to 80,000 cells in 2 days. Retarded proliferation of human and gorilla fibroblasts in collagen is unrelated to a defect in DNA synthesis. By autoradiography human fibroblasts suspended in collagen incorporate labelled thymidine. By flow cytometry analysis, the DNA concentrations of human fibroblasts suspended in collagen exhibited 41% in a 4N chromosome state, compared to 14% in monolayer culture. Nuclei of gorilla fibroblasts from collagen displayed 42% in a 4N state, compared to 19% in monolayer culture. With nuclei of rat fibroblasts from collagen, 14% were in a 4N state, compared to 9% in monolayer culture. Primate fibroblasts show a three-fold increase in the number of nuclei in a 4N state compared to rat fibroblasts suspended in collagen. After replating fibroblasts released from collagen in monolayer culture in the presence of 1 mM hydroxyurea (an inhibitor of DNA synthesis) primate fibroblasts doubled in 24 hr. Under identical conditions, rat fibroblasts showed no cell division.(ABSTRACT TRUNCATED AT 250 WORDS)     

Inhibition of acylcoenzyme A:cholesterol acyltransferase activity in CaCo-2 cells results in intracellular triglyceride accumulation

The activity of acylcoenzyme A:cholesterol acyltransferase (ACAT) in CaCo-2 cells was inhibited by the ACAT inhibitor, 58-035. The inhibitory effect of this acylamide was specific for cholesterol esterification catalyzed by ACAT; the rates of triglyceride, phospholipid, and cholesterol synthesis were not inhibited by this agent. Cholesteryl esters were depleted in CaCo-2 cells 24 hr after inhibition of ACAT activity, whereas the unesterified cholesterol content increased by 56% after 96 hr. Moreover, inhibiting ACAT activity with 58-035 resulted in a time-dependent 2.5-fold increase in intracellular triglycerides. This accumulation of triglycerides in CaCo-2 cells was associated with a 37% increase in triglyceride synthesis by 96 hr in the presence of 58-035. Triglyceride-rich lipoprotein secretion (d less than 1.006 g/ml) was not affected by inhibiting ACAT activity for up to 6 hr. However, triglyceride-rich lipoprotein secretion was significantly decreased in CaCo-2 cells that were preincubated with 58-035 for 24 to 96 hr. Lipoproteins of density less than 1.006 g/ml that were isolated from CaCo-2 cells incubated with the ACAT inhibitor were deficient in cholesteryl esters and triglycerides compared to lipoproteins isolated from control cells. The data suggest that triglycerides accumulate in CaCo-2 cells in which ACAT activity has been inhibited by 58-035. This accumulation of triglycerides is associated with a modest increase in triglyceride synthesis and a decrease in triglyceride secretion. Altering intracellular cholesterol pools by regulating ACAT activity in the gut could result in the decrease of triglyceride transport and/or the secretion of triglyceride-rich lipoprotein particles of abnormal composition.     

Multiparametric study and cluster analysis of transplantable human cell cultures

Using the methods of scanning cytophotometry, cytochemistry, and cytomorphometry, cells of hepatocarcinoma (HEp-G2), an adenocarcinoma of the large intestine (Caco-2), an embryonic kidney (HEK-293), a neuroblastoma (SH-SY5Y), a rabdomyosarcoma (RD), and larynx cancer (HEp-2) were studied 48, 72, and 96 h after the beginning of cultivation. The density of the monolayer, proliferative activity, the number of dead cells, the DNA content in nuclei and distribution of the cells in the population for this parameter, the total DNA content in nucleoli (in the perinucleolar chromatin), the number of nucleoli in nuclei, the distribution of cells by their number, the volume and area of the nuclear surface, and the total volume and area of the nucleolar surface were determined. The obtained data were used for a treelike cluster analysis of the cultures by the Pierson correlation. As a result of the analysis, the SH-SY5Y culture was separated into an individual cluster, while Caco-2, HEp-G2, HEK 293, HEp-2, and RD cultures were located in the tree of another cluster. The significance (weight) of parameters in the formation of a general pattern of cell cultures is not equal. It also turned out that the least transformed culture of neuroblastoma (SH-SY5Y) had no relationship with other cultures that show various degrees of similarity to one another. The cultures HEK 293, HEp-2, and RD were found to be close to one another in all parameters. Parameters had different significances in the formation of the general pattern of cell cultures. The parameters that characterized the population as a whole were of the greatest significance and included the following: density of monolayer, mitotic coefficient, and the number of dead cells. Additionally, the nuclear DNA content, the total area of the nucleolar surface, and the ratio of the nucleolar to nuclear DNA and of the total nucleolar to the nuclear areas are also of great importance. Other parameters were less significant.     

Perifused monolayer cultures of rat hepatocytes as an improved in vitro system for studies on ureogenesis

A perifusion system has been developed for cultivation of adult rat hepatocytes, permitting continuous supply of medium to the cell monolayer instead of periodical changes as used in conventional culture technique (discontinuous culture). Additionally, a modification of Waymouth's MB 752/1 medium is described, which favoured the expression of several metabolic and regulatory events mentioned below and supported the maintenance of several enzymes involved in nitrogen metabolism. The improved nutritional conditions accelerated early monolayer formation and metabolic recovery, and favoured long-term cultivation of metabolically active and hormone responsive hepatocytes. Urea formation from substrates contained in the medium was found to be 2- to 3-fold higher and preserved for a considerably longer time than with discontinuously cultured cells, and was further enhanced by addition of tryptose phosphate broth or 4 mM NH₄Cl even after 10 days in culture. In the presence of glucagon (10⁻⁷ M) the urea production was more than doubled during a 24 h incubation period on the 4th day. Pretreatment with this hormone for 24 h also markedly stimulated the capacity of perifused cells for ureogenesis. Concomitantly, a rise in arginase activity up to 2-fold could be measured in response to glucagon, which was largely suppressed by simultaneous presence of leucine in concentrations between 5 and 10 mM.     

Viability of meiotic prophase spermatocytes of rats is facilitated in primary culture of dispersed testicular cells on collagen gel by supplementing epinephrine or norepinephrine: Evidence that meiotic prophase spermatocytes complete meiotic divisions in vitro

Summary Dispersed testicular cells prepared from 14-d-old rats were cultured on type 1 collagen gels using a medium composed of a 1∶1 mixture of Ham’s F12 medium and Leibovitz’s L15 medium (F12-L15 medium) containing 10% (vol/vol) fetal bovine serum. The viability of the spermatogenic cells was facilitated by supplementing a rat adrenal extract into the medium. The effective substance(s) (the survival factor) was purified from acid extracts of adrenals by molecular sieve high performance liquid chromatography and identified as epinephrine and norepinephrine. Both epinephrine and norepinephrine promoted the survival of the spermatogenic cells with a half saturating dose of 10 ng/ml. The spermatogenic cells, which could be cultured for 2 wk on a collagen gel by supplementing with the survival factor (epinephrine or norepinephrine), were subjected to Giemsa staining and to DNA flow cytometry. The following results were obtained: a) The spermatogenic cells from 14-d-old rats did not contain spermiogenic cells (lc-cells). b) During a culture period of 2 to 7 d the ratio of meiotic prophase spermatocytes (4c-cells) to premeiotic cells (2c-cells) increased. On Day 7, more than 90% of the surviving cells were meiotic prophase spermatocytes. c) On Day 10, spermatids (lc-cells) appeared for the first time. The time of the first appearance of spermatids in the culture was consistent with that in vivo. These results suggest that both epinephrine and norepinephrine facilitated the viability of meiotic prophase spermatocytes and that a part of the meiotic prophase spermatocytes completed the meiotic divisions in the testicular cell culture.     

Comparative biochemical and immunocytochemical studies reveal differences in the effects of Clostridium perfringens enterotoxin on polarized CaCo-2 cells versus Vero cells.

Since most in vitro studies exploring the action of Clostridium perfringens enterotoxin (CPE) utilize either Vero or CaCo-2 cells, the current study directly compared the CPE responsiveness of those two cell lines. When CPE-treated in suspension, both CaCo-2 and Vero cells formed SDS-resistant, CPE-containing complexes of approximately 135, approximately 155, and approximately 200 kDa. However, confluent Transwell cultures of either cell line CPE-treated for 20 min formed only the approximately 155-kDa complex. Since those Transwell cultures also exhibited significant (86)Rb release, approximately 155-kDa complex formation is sufficient for CPE-induced cytotoxicity. Several differences in CPE responsiveness between the two cell lines were also detected. (i) CaCo-2 cells were more sensitive when CPE-treated on their basal surface, whereas Vero cells were more sensitive when CPE-treated on their apical surface; those sensitivity differences correlated with CPE binding the apical versus basolateral surfaces of these two cell lines. (ii) CPE-treated Vero cells released (86)Rb into both Transwell chambers, whereas CaCo-2 cells released (86)Rb only into the CPE-containing Transwell chamber. (iii) Vero cells express the tight junction (TJ) protein occludin but (unlike CaCo-2 cells) cannot form TJs. The ability of TJs to affect CPE responsiveness is supported by the similar effects of CPE on Transwell cultures of CaCo-2 cells and Madin-Darby canine kidney cells, another polarized cell forming TJs. Confluent CaCo-2 Transwell cultures CPE-treated for >1 h formed the approximately 200-kDa CPE complex (which also contains occludin), exhibited morphologic damage, and had occludin removed from their TJs. Collectively, these results identify CPE as a bifunctional toxin that, in confluent polarized cells, first exerts a cytotoxic effect mediated by the approximately 155-kDa complex. Resultant damage then provides CPE access to TJs, leading to approximately 200-kDa complex formation, internalization of some TJ proteins, and TJ damage that may increase paracellular permeability and thereby contribute to the diarrhea of CPE-induced gastrointestinal disease.     

Recruitment of dendritic cells is responsible for intestinal epithelial damage in the pathogenesis of necrotizing enterocolitis by Cronobacter sakazakii

Cronobacter sakazakii is a Gram-negative pathogen associated with the cases of necrotizing enterocolitis (NEC) that result from formula contamination. In a mouse model of NEC, we demonstrate that C. sakazakii infection results in epithelial damage by recruiting greater numbers of dendritic cells (DCs) than macrophages and neutrophils in the gut and suppresses DC maturation, which requires outer membrane protein A (OmpA) expression in C. sakazakii. Pretreatment of intestinal epithelial cell monolayers with supernatant from OmpA(+) C. sakazakii/DC culture markedly enhanced membrane permeability and enterocyte apoptosis, whereas OmpA(-) C. sakazakii/DC culture supernatant had no effect. Analysis of OmpA(+) C. sakazakii/DC coculture supernatant revealed significantly greater TGF-β production compared with the levels produced by OmpA(-) C. sakazakii infection. TGF-β levels were elevated in the intestinal tissue of mice infected with OmpA(+) C. sakazakii. Cocultures of CaCo-2 cells and DCs in a "double-layer" model followed by infection with OmpA(+) C. sakazakii significantly enhanced monolayer leakage by increasing TGF-β production. Elevated levels of inducible NO synthase (iNOS) were also observed in the double-layer infection model, and abrogation of iNOS expression prevented the C. sakazakii-induced CaCo-2 cell monolayer permeability despite the presence of DCs or OmpA(+) C. sakazakii/DC supernatant. Blocking TGF-β activity using a neutralizing Ab suppressed iNOS production and prevented apoptosis and monolayer leakage. Depletion of DCs in newborn mice protected against C. sakazakii-induced NEC, whereas adoptive transfer of DCs rendered the animals susceptible to infection. Therefore, C. sakazakii interaction with DCs in intestine enhances the destruction of the intestinal epithelium and the onset of NEC due to increased TGF-β production.     

Phosphodiesterase in human colon carcinoma cell line CaCo-2 in culture

In a series of in vitro experiments we characterised the relationship between DNA distribution in the G1, S and G2/M phases of cell cycle and PDE and GST activity in CaCo-2 cells. The DNA distribution in CaCo-2 cells, was assessed by flow cytometry, with fluorescent dyes at different time points of culture. The exponential increase in cell number continued until day 10 when there was cell saturation. The effect of medium replacement on PDE activity was assayed in the first 10 h after medium replacement. The 6^th hour is the time at which PDE activity was found to be highest. We have assayed the PDE enzyme with cGMP and cAMP as substrates. Only cAMP was consumed from this enzyme. We found a very close correlation between the DNA distribution in the various phases of the cell cycle and the PDE activity. PDE activity was very high during the active replication phase, whereas GST activity was high after confluency.     

Wnt signaling regulates the function of MyoD and myogenin

The myogenic regulatory factors (MRFs), MyoD and myogenin, can induce myogenesis in a variety of cell lines but not efficiently in monolayer cultures of P19 embryonal carcinoma stem cells. Aggregation of cells expressing MRFs, termed P19[MRF] cells, results in an approximately 30-fold enhancement of myogenesis. Here we examine molecular events occurring during P19 cell aggregation to identify potential mechanisms regulating MRF activity. Although myogenin protein was continually present in the nuclei of >90% of P19[myogenin] cells, only a fraction of these cells differentiated. Consequently, it appears that post-translational regulation controls myogenin activity in a cell lineage-specific manner. A correlation was obtained between the expression of factors involved in somite patterning, including Wnt3a, Wnt5b, BMP-2/4, and Pax3, and the induction of myogenesis. Co-culturing P19[Wnt3a] cells with P19[MRF] cells in monolayer resulted in a 5- to 8-fold increase in myogenesis. Neither BMP-4 nor Pax3 was efficient in enhancing MRF activity in unaggregated P19 cultures. Furthermore, BMP-4 abrogated the enhanced myogenesis induced by Wnt signaling. Consequently, signaling events resulting from Wnt3a expression but not BMP-4 signaling or Pax3 expression, regulate MRF function. Therefore, the P19 cell culture system can be used to study the link between somite patterning events and myogenesis.     

Induction of 17 alpha-hydroxylase (cytochrome P-450(17)alpha) activity by adrenocorticotropin in bovine adrenocortical cells maintained in monolayer culture

Using bovine adrenocortical cells in monolayer culture it has been shown that treatment with adrenocorticotropin (ACTH) causes a dramatic increase in 17 alpha-hydroxylase activity. In postmitochondrial supernatant fractions (PMS) prepared from cells maintained in culture, there was a 15-fold increase in 17 alpha-hydroxylase activity 36 h following initiation of ACTH treatment compared with the activity measured in PMS prepared from control cells. In the continued presence of ACTH, 17 alpha-hydroxylase activity declined; however, even after 60 h of exposure to ACTH, 17 alpha-hydroxylase activity was eight times higher than that present in control cells. The dramatic increase in 17 alpha-hydroxylase activity provides an explanation for the previously observed phenomenon that following initiation of ACTH treatment of bovine adrenocortical cells in monolayer culture there is a shift in the pattern of corticosteroid secretion from approximately equal amounts of cortisol and corticosterone to almost exclusively cortisol. Thus, the modulation of 17 alpha-hydroxylase activity by ACTH action appears to serve a key regulatory role in the pattern of corticosteroid production. Soluble cytosolic factors apparently do not participate in the regulation of 17 alpha-hydroxylase activity in the bovine adrenal cortex. Increases in the magnitude of substrate-induced absorbance changes are indicative that the increase in 17 alpha-hydroxylase activity is due, at least in part, to an elevation of cytochrome P-450(17)alpha synthesis.     

Analysis of matrix metalloproteinase activity during differentiation of mesenchymal stem cells isolated from different tissues of one donor

Mesenchymal stem cells established from bone marrow (FetMSC) and limb bud (M-FetMSC) of early human embryo, as well as spheroids derived these cells, were induced to undergo osteogenic and adipogenic differentiation. Differentiated cells exhibited the activity of metalloproteinase (MMP)-9, -2, and -1. Its activity was different in osteogenic and adipogenic cells, as well as in monolayer cultures (2D) and cell spheroids (3D). The direct correlation between the level of adipogenic differentiation and gelatinases MMP-9 and MMP-2 activities in both cell lines in 2D and 3D culture was shown. M-FetMSC cells in 2D culture 12 days in culture during showed low potential for adipogenesis and reduced activity of MMP-2 and MMP-9. The low level of adipogenic differentiation in 2D M-FetMSC culture was accompanied with increased MMP-1 activity and enhanced differentiation (3D culture) resulted in a significant increase of both MMP activities. MMP-1 activity varied oppositely. MMP-1 activity declined in 3D cultures with a higher level of adipogenic differentiation. The level of osteogenic differentiation was similar in both cell lines during 2D and 3D cultivation. MMP-1 and -9 activities in both cell lines were not associated with osteogenic differentiation. MMP-2 and MMP-2 activity in these cells remained unchanged. The results suggest MMP implication in FetMSC and М-FetMSC differentiation. The difference in MMP activities during the cell differentiation may be caused by variations in the microenvironment or ECM properties in 2D and 3D cultures.     

Cell density dependent regulation of phenylalanine hydroxylase activity in hepatoma cells : Evidence for both an active and inactive enzyme form

The cell density dependent regulation of phenylalanine hydroxylase activity in Reuber hepatoma (H4) cells growing in monolayer culture has been examined in detail. We found that 48 h or more after subculture phenylalanine hydroxylase activity in the cells is an exponential function of cell density (cells/cm²). No discontinuity in the relationship is seen with the formation of a confluent monolayer.A rapid loss or a rapid gain in enzyme activity in the cells is observed after diluting or concentrating the cell cultures. The two processes appear qualitatively different. The loss in activity is a first order process which starts at the time of subculture with the rate of loss dependent on the density of subculture. The gain in activity begins 6–8 h after subculture to a higher density; it can be blocked by cycloheximide and has a maximum rate of increase that is about 10% of the maximum rate of loss of activity.Using immunochemical procedures, we found the same amount of phenylalanine hydroxylase associated antigen in Reuber cells from low density as from high density cultures, over a range of phenylalanine hydroxylase specific activities from 0.2 to 4.2. After concentrating cells to a higher density, no increase in enzyme antigen was observed, despite a several-fold increase in enzyme activity and a requirement for protein synthesis during the process. These observations imply the presence of an active and inactive phenylalanine hydroxylase with the relative amounts of each determined by the cell density. The effects of db-cAMP are discussed. Evidence is presented here that the hydrocortisone stimulation of phenylalanine hydroxylase activity works through a different mechanism than the cell density dependent process.     

DNA synthesis and content and the accumulation of total protein and hemoglobin during the differentiation of primary erythroid cells in chickens

Using cytophotometric and autoradiographic methods, it was shown that on days 2-3 of embryogenesis primary erythroid cells (PEC) divided actively. The distribution of erythroblasts (EB) according to their DNA content is not, however, typical of a proliferating population: it contains an unusually large number of 4c cells resulting from the cell cycle arrest at the G2 phase. It is established that reticulocytes (RC) do not divide and are arrested at G1 or G2 phases, since they do not incorporate 3H-thymidine after their formation is complete and their DNA contents are strictly confined to either 2c or 4c. All types of PEC include a large number of cells containing H2c DNA which is due either to the cell cycle arrest at the S phase, or to the formation of accessory nuclei. All PECs have much higher contents of hemoglobin and total protein than do adult hen erythrocytes (EC). Hemoglobin and total protein contents of H2c and accessory nuclei containing cells are much higher than those in 2c-cells. We have calculated that adult birds and embryos contain the same amount of hemoglobin per gram of weight, but the quantity of red blood cells in the former is ten times higher. A conclusion is drawn that proliferation and cytodifferentiation regulation mechanisms are directed, in primary erythropoiesis, to intense hemoglobinization of the cells, and, in adult erythropoiesis, to increasing their number. In both the cases homeostatic regulation of erythropoiesis works.(ABSTRACT TRUNCATED AT 250 WORDS)