Interactive effects of solutes, potassium sorbate and incubation temperature on growth, heat resistance and tolerance to freezing of Zygosaccharomyces rouxii.

The interactive effects of solutes, potassium sorbate and incubation temperature on growth, heat resistance and tolerance to freezing of Zygosaccharomyces rouxii were investigated. Growth rates in media supplemented with glucose, sucrose or NaCl to aw 0.93 were more rapid than in unsupplemented media (aw 0.99). Although growth in unsupplemented medium was lower at 35 degrees C, incubation at 21 degrees C or 35 degrees C had little effect on growth in media supplemented with glucose and sucrose. The addition of 300 micrograms potassium sorbate/ml to media resulted in reduced growth rates, particularly at 35 degrees C. Heat resistance of Z. rouxii was substantially greater in cultures previously incubated at 35 degrees C than in cultures incubated at 21 degrees C in media both with and without 300 micrograms potassium sorbate/ml. Zygosaccharomyces rouxii was tolerant to freezing at -18 degrees C for up to 120 d in all test media supplemented with glucose, sucrose or NaCl. The addition of 300 micrograms potassium sorbate/ml to sucrose-supplemented media resulted in increased resistance to freezing in cultures previously incubated at 21 degrees C. Sensitivity to freezing increased when cultures were incubated at 21 degrees C in media not supplemented with solutes. Glucose and sucrose provided the best protection against inactivation by heating and freezing, regardless of the presence of potassium sorbate in growth media.     

In vitro explant culture of mantle epithelium of freshwater pearl mussel

The in vitro culture of nacre secreting pallial mantle explants of freshwater pearl producing mussel, Lamellidens marginalis (Lamarck) included depuration of pearl mussels with different physical and chemical agents to eradicate various commensals, removal of pallial mantle ribbon, aseptic preparation of explants from the ribbon and transfer of those explants into tissue culture petri dishes. Special synthetic tissue culture media enriched with additives viz., inactivated calf fetal serum and antibiotics were poured into plates with explants. The culture plates were incubated at 30 degrees C in a CO2 incubator at 5%, CO2. The cultures could be maintained for 42-45 days without any contamination. After 12 hr epithelial like cells began to migrate out and formed a complete cell sheet surrounding the explant within 12-15 days. The epithelial cells in the culture indicated functional viability as subsequently after 38-40 days of culture, typical aragonitic 'nacre' crystals of CaCO3 could be observed throughout the culture plates.     

The behaviour of log phase Escherichia coli at temperatures that fluctuate about the minimum for growth

AIMS: To investigate the behaviour of cold-adapted, log phase Escherichia coli exposed to temperatures that fluctuate below and above the minimum for growth. METHODS AND RESULTS: Log phase E. coli cultures were incubated at a constant temperature of 2, 4 or 6 degrees C or with temperatures allowed to increase from those temperatures for 35 min, to 10 degrees C, at 6-, 12- or 24-h intervals, as commonly occurs during retail display of chilled foods. At suitable intervals for each culture, the optical absorbance value was determined using a spectrophotometer, the forward angle light scatter was determined using a flow cytometer, and portions were spread on plate count agar for enumeration of colony forming units (CFU). Numbers of CFU decreased by 3 log units or increased by 1 log unit for cultures incubated at 6 degrees C for 17 days without or with temperatures fluctuations at < or =12-h intervals, respectively. Cells elongated when cultures were incubated at 4 or 2 degrees C with temperatures fluctuating at 6-h intervals, and at 6 degrees C at constant or fluctuating temperatures, but cells did not elongate in cultures incubated at a constant temperature of 2 or 4 degrees C. SIGNIFICANCE AND IMPACT OF THE STUDY: The minimum growth temperature of E. coli is assumed to be > or =7 degrees C. Elongated cells were able to divide when temperatures rose from 6 degrees C to above 7 degrees C for <45 min at < or =12-h intervals. Such temperature fluctuations may be experienced by chilled foods during defrosting cycles of retail display cases. The finding that cells behave differently under fluctuating than at constant temperatures may significantly affect understanding of appropriate temperatures for the safe storage of chilled foods and for predictive modelling of bacterial growth in such foods.     

The effect of radiation in combination with carcinogens on the growth of normal urothelium in explant culture

Summary Radiation is known to be carcinogenic to humans but attempts to demonstrate the process using human tissue culture models have met with little success. In the present study explants were established from urothelium and exposed to radiation and a range of chemical carcinogens, suspected promotor or metabolic agents. The resulting outgrowth was monitored for growth rate, proliferating epithelial fraction and development and differentiation of endothelial cells in culture. The results indicate that enhanced growth of epithelial cells can be seen when cultures are irradiated in the presence of various nitrosamines, benzo(a)pyrene or aniline. Radiation alone reduced the overall growth area measured but several proliferative foci developed on the resulting outgrowth. Their ultrastructural appearance reveals that they carry severe mitochondrial damage and exposure of treated cultures to metabolic inhibitors confirms that their respiration is defective. Endothelial cells proliferated over the surface of the epithelial monolayer and both the number and the degree of differentiation of the endothelial cells increased with increasing dose up to 10 Gy. While the cultures are not immortalised by the treatment, it appears that the epithelial cells have an extended lifespan (division capacity) and that a subpopulation has undergone a number of premalignant changes. Changes in endothelial cell proliferation also occur.     

Trypanosoma brucei: differentiation of in vitro-grown bloodstream trypomastigotes into procyclic forms

Trypanosoma brucei strain 366D trypomastigotes grown at 37 degrees C in the presence of a human fibroblast cell line formed foci underneath the feeder cells whereas trypanosomes grown in the presence of a human epithelial cell line grew only in the culture supernatant. A culture system was developed to study the differentiation of bloodstream trypomastigotes grown in the epithelial cell system into procyclic trypomastigotes at 27 degrees C. The morphological differentiation into the procyclic form was complete by 48 h. Cell division did not occur until 30-40 h after transfer to 27 degrees C. Various characteristics of this system were examined, including the effect of the feeder layer, the type of medium, the presence of the metabolites cis-aconitate and citrate, the preadaptation period, and the trypanosome cell concentration. The respiration of the recently differentiated procyclic cells was less sensitive to inhibition by CN- than that of established procyclic forms, implying a delayed appearance of complete mitochondrial oxidative pathways. This trypanosome differentiation system has the advantage that the animal host is not needed and the entire process is carried out in in vitro culture.     

Glycosaminoglycan accumulation by normal and malignant human mammary epithelial cells in primary culture

The effects of glycosaminoglycans (GAGs) on cell growth and differentiation appear to vary with cell type and stage of development. This study describes the types and distribution of GAGs accumulated by normal and malignant human mammary epithelial cells in primary culture during their exponential and stationary phases of growth. Cultures incubated with [3H]glucosamine or [35S]sulfate were separated into medium, extracellular matrix (ECM), and cell fractions. Labelled GAGs were identified by chemical and enzymatic degradations and cellulose acetate electrophoresis. Cultures of normal cells in the exponential phase of growth released the most labelled GAGs into the medium fraction, the majority of which was hyaluronic acid (HA). The increase in labelled GAG accumulation, the increase in sulfated GAGs localized in the ECM fraction correlated with the reduced proliferative activity and increased cell density of cells in stationary cultures. In contrast, cultures of mammary tumour cells had the same labelled GAG profile, regardless of their growth status. Although there was variation among tumours, in general, the majority of the labelled GAGs were secreted into the medium fraction and the predominant GAG was HA. The results are comparable with those obtained from studies on mammary tissue in vivo. Primary cultures of human mammary epithelial cells should be useful for determining how modulations of GAGs affect growth and differentiation of these cells.     

Low-temperature pausing of cultivated mammalian cells

There are currently two methods for maintaining cultured mammalian cells, continuous passage at 37 degrees C and freezing in small batches. We investigated a third approach, the "pausing" of cells for days or weeks at temperatures below 37 degrees C in a variety of cultivation vessels. High cell viability and exponential growth were observed after pausing a recombinant Chinese hamster ovary cell line (CHO-Clone 161) in a temperature range of 6-24 degrees C in microcentrifuge tubes for up to 3 weeks. After pausing in T-flasks at 4 degrees C for 9 days, adherent cultures of CHO-DG44 and human embryonic kidney (HEK293 EBNA) cells resumed exponential growth when incubated at 37 degrees C. Adherent cultures of CHO-DG44 cells paused for 2 days at 4 degrees C in T-flasks and suspension cultures of HEK293 EBNA cells paused for 3 days at either 4 degrees C or 24 degrees C in spinner flasks were efficiently transfected by the calcium phosphate-DNA coprecipitation method, yielding reporter protein levels comparable to those from nonpaused cultures. Finally, cultures of a recombinant CHO cell line (CHO-YIgG3) paused for 3 days at 4 degrees C, 12 degrees C, or 24 degrees C in bioreactors achieved the same cell mass and recombinant protein productivity levels as nonpaused cultures. The success of this approach to cell storage with rodent and human cell lines points to a general biological phenomenon which may have a wide range of applications for cultivated mammalian cells.     

Serial culturing of human bronchial epithelial cells derived from biopsies

Summary In the present study we describe the establishment of serial cultures of human bronchial epithelial cells derived from biopsies obtained by fiberoptic bronchoscopy. The cell cultures were initiated from small amounts of material (2 mm forceps biopsies) using either explants or epithelial cell suspensions in combination with a feeder-layer technique. The rate of cell proliferation and the number of passages (up to 8 passages) achieved were similar, irrespective of whether the explants or dissociated cells were used. To modulate the extent of differentiation, the bronchial epithelial cells were cultured either under submerged, low calcium (0.06 mM) (proliferating), normal calcium (1.6 mM) (differentiation enhancing) conditions, or at the air-liquid interface. Characterization of the bronchial epithelial cell cultures was assessed on the basis of cell morphology, cytokeratin expression, and ciliary activity. The cells cultured under submerged conditions formed a multilayer consisting of maximally three layers of polygonal-shaped, small cuboidal cells, an appearance resembling the basal cells in vivo. In the air-exposed cultures, the formed multilayer consisted of three to six layers exhibiting squamous metaplasia. The cytokeratin profile in cultured bronchial epithelial cells was similar in submerged and air-exposed cultures and comparable with the profile found in vivo. In addition to cytokeratins, vimentin was co-expressed in a fraction of the subcultured cells. The ciliary activity was observed in primary culture, irrespective of whether the culture had been established from explants or from dissociated cells. This activity was lost upon subculturing and it was not regained by prolongation of the culture period. In contrast to submerged cultures and despite the squamous metaplasia appearance, the cells showed a reappearance of cilia when cultured at the air-liquid interface. Human bronchial epithelial cell cultures can be a representative model for controlling the mechanisms of regulation of bronchial epithelial cell function.     

The differentiation of normal and transformed human fibroblasts in vitro is influenced by electromagnetic fields

We studied the effect of symmetric, biphasic sinusoidal electromagnetic fields (EMF) (20 Hz, 6 mT) on the differentiation of normal human skin fibroblasts (HH-8), normal human lung fibroblasts (WI38), and SV40-transformed human lung fibroblasts (WI38SV40) in in vitro cultures. Cells were exposed up to 21 days for 2 x 6 h per day to EMF. Normal mitotic human skin and lung fibroblasts could be induced to differentiate into postmitotic cells upon exposure to EMF. Concomitantly, the synthesis of total collagen as well as total cellular protein increased significantly by a factor of 5-13 in EMF-induced postmitotic cells. As analyzed by two-dimensional gel electrophoresis of [35S]methionine-labeled polypeptides, EMF-induced postmitotic cells express the same differentiation-dependent and cell type-specific marker proteins as their spontaneously arising counterparts. In SV40-transformed human lung fibroblasts (cell line WI38SV40) the exposure to EMF induced the differentiation of mitotic WI38SV40 cells into postmitotic and degenerating cells in subpopulations of WI38SV40 cell cultures. Other subpopulations of WI38SV40 cells did not show any effect of EMF on cell proliferation and differentiation. These results indicate that long-term EMF exposure of fibroblasts in vitro induces the differentiation of mitotic to postmitotic cells that are characterized by differentiation-specific proteins and differentiation-dependent enhanced metabolic activities.     

Functional differentiation in mouse mammary gland epithelium is attained through DNA synthesis,inconsequent of mitosis

Virgin mouse mammary gland in explant culture will differentiate and synthesize casein and α-lactalbumin when insulin, hydrocortisone, and prolactin (IFPRL) are present in the culture medium. Explants whose DNA synthesis has been blocked differentiate cytologically, mobilize lipid, synthesize RNA, and incorporate ³H-amino acids into proteins to the same extent as unblocked tissue. Nevertheless, casein synthesis as measured by immunoprecipitation with casein-specific antiserum remains at the zero-time level in blocked explants while unblocked explants produce casein at five- to eightfold greater levels. Electrophoretic analysis of immunoprecipitated radioactive proteins showed that the IFPRL-treated virgin tissue made all four size classes of mouse casein. Immunoperoxidase studies of explants revealed that the number of mammary epithelial cells positive for casein was 2–8% in blocked and 24–31% in unblocked, in good agreement with the radioimmunoprecipitation results. Immunoelectron microscopy demonstrated the accumulation of casein within the cisternae of the granular endoplasmic reticulum and in Golgi vacuoles in the unblocked epithelial cells. Similar accumulation did not occur in blocked cultures despite the secretory appearance of the cells. Autoradiographic analysis of blocked and unblocked explants, incubated in the presence of IFPRL and [³H]thymidine for 72 hr, showed that 53–57% of the epithelial cells synthesized DNA in unblocked explants, whereas only 2% incorporated the label in the presence of cytosine arabinoside. When explants were incubated with IFPRL and various concentrations of colchicine, only 5–6% of the epithelial cells were found to enter mitosis. Since cell duplication cannot account for the severalfold increase in casein-producing cells in the unblocked explants, the results suggest that the requirement for DNA synthesis in this system may involve either polyploid cells or the augmentation of specific sequences necessary for the facilitation of terminal differentiation. Similar requirements for DNA synthesis were not observed in mammary explants from pregnant and primiparous (but nonpregnant) mice.     

Protein secretion by choroid plexus: isolated apical fragments synthesize protein in vitro

Protein synthesis was studied in the isolated rat choroid plexus. When the choroid plexus was studied by transmission electron microscopy, membrane-bound structures were often observed in the ventricular space. These structures appear to bud from the apical surface of the epithelial cells. In the present study, we attempted to isolate these membrane-bound cellular fragments from the choroid plexus and to determine their ability to synthesize proteins. The apical fragments (aposomes) were isolated from the choroid plexus by allowing tissue explants to incubate in media (37 degrees C) for 1 h. The tissue was removed and the media, now containing aposomes, was incubated with [S35]methionine (100 microCi). The media was collected and analysed by SDS-PAGE followed by fluorography. Parallel [S35]methionine incubations were done with whole tissue explants. The SDS-PAGE protein derived from the aposomes was similar to the profile derived from the tissue. In addition, proteins detected in CSF had relative molecular weights comparable to the products synthesized by aposomes. These observations suggest that aposomes provide an additional route of entry for proteins into CSF.     

Differentiation and growth potential of human ovarian surface epithelial cells expressing temperature-sensitive SV40 T antigen

The epithelial ovarian carcinomas arise in the ovarian surface epithelium (OSE) which is the mesothelial covering of the ovary. Studies of human USE have been hampered by the small amounts and limited lifespan of this epithelium in culture. OSE cells expressing SV40 large T antigen (Tag) or the HPV genes E6 and E7 have increased growth potentials but lack some of the normal characteristics of OSE. In this study, we used conditional SV40 Tag expression to produce OSE cells with increased proliferative potentials but relatively normal phenotypes. Primary OSE cultures from three women, one of whom had a BRCA1 mutation, were infected with a temperature-sensitive Tag construct (tsTag), and from these, 28 monoclonal and four polyclonal lines were isolated. The effects of temperature changes were examined in two monoclonal and two polyclonal lines. At the permissive temperature (34 degrees C), these cell lines underwent 52-71 population doublings (PD) compared to 15-20 PD for normal OSE. Nuclear SV40-Tag and p53 expression, demonstrated by immunofluorescence, showed that tsTag was uniformly present and biologically active in all lines. At 34 degrees C, culture morphologies ranged from epithelial to mesenchymal. The mean percentage of cells expressing the epithelial differentiation marker, keratin. varied between lines from 20 to 97%. Collagen type III, a mesenchymal marker expressed by OSE in response to explantation into culture, was present in 24-43% of cells. At 39 degrees C, tsTag was inactivated by 2 d while nuclear p53 staining diminished to control levels over 2 wk. Over 3 d. the cells assumed more epithelial morphologies, keratin expression reached 85-100% in all lines and collagen expression increased significantly in two lines. The cultures with the BRCA1 mutation expressed the most keratin and the least collage n III at both temperatures. As indicated by beta-galactosidase staining at pH 6.0, changes leading to senescence were initiated at 39 degrees C by 6 h and were present in all cells after 24 h. However, the cells underwent 1-3 population doublings over up to 1 wk before growth arrest and widespread cell death, thus providing an experimental system where large numbers of OSE cells with different genetic backgrounds and growth potentials can be studied without the concurrent influence of Tag.     

Influence of elevated temperature on starch hydrolysis by enterotoxin-positive and enterotoxin-negative strains of Clostridium perfringens type A.

Enterotoxin-positive (Ent+) and enterotoxin-negative (Ent-) strains of Clostridium perfringens were cultured in Duncan-Strong sporulation medium containing starch at 37 and 46 degrees C. At 37 degrees C, all strains degraded starch and sporulated well. However, only Ent- strains could hydrolyze starch, grow extensively, and sporulate at 46 degrees C. Growth, sporulation, and starch hydrolysis by Ent+ strains at 46 degrees C were equivalent to those obtained at 37 degrees C when alpha-amylase was added to the cultures during growth. The total amount of extracellular plus intracellular amylase in cultures of Ent+ strains was significantly less in cells incubated at 46 degrees C than in cells incubated at 37 degrees C. These results contradict an earlier report that Ent+ strains cannot sporulate well near their optimal growth temperature (R. G. Labbe and C. L. Duncan, Can. J. Microbiol. 20:1493-1501, 1974) and suggest that synthesis of alpha-amylase in Ent+ strains is regulated by temperature.     

Influence of modified-atmosphere storage on the growth of uninjured and heat-injured Aeromonas hydrophila

The growth of uninjured and heat-injured Aeromonas hydrophila incubated at 5 degrees C (22 days) and 30 degrees C (31 h) under air, N2, and CO2 was investigated. At 30 degrees C, the growth patterns of cells on brain heart infusion agar incubated under air and N2 were similar, although slight differences in the lengths of the lag phases and the final populations were detected. The lag phases of cells incubated under air and N2 were substantially longer at 5 degrees C than at 30 degrees C. The population of uninjured A. hydrophila incubated at 5 degrees C under air and N2 remained constant, whereas the number of injured cells declined before the exponential growth phase. Growth at 5 degrees C was enhanced when uninjured and heat-injured A. hydrophila were incubated under N2. At 30 degrees C, cells incubated under CO2 exhibited noticeably longer lag phases and lower growth rates than did cells incubated under air and N2. The viable populations of uninjured and heat-injured cells incubated at 5 degrees C under CO2 declined steadily throughout incubation.     

Influence of modified-atmosphere storage on the growth of uninjured and heat-injured Aeromonas hydrophila.

The growth of uninjured and heat-injured Aeromonas hydrophila incubated at 5 degrees C (22 days) and 30 degrees C (31 h) under air, N2, and CO2 was investigated. At 30 degrees C, the growth patterns of cells on brain heart infusion agar incubated under air and N2 were similar, although slight differences in the lengths of the lag phases and the final populations were detected. The lag phases of cells incubated under air and N2 were substantially longer at 5 degrees C than at 30 degrees C. The population of uninjured A. hydrophila incubated at 5 degrees C under air and N2 remained constant, whereas the number of injured cells declined before the exponential growth phase. Growth at 5 degrees C was enhanced when uninjured and heat-injured A. hydrophila were incubated under N2. At 30 degrees C, cells incubated under CO2 exhibited noticeably longer lag phases and lower growth rates than did cells incubated under air and N2. The viable populations of uninjured and heat-injured cells incubated at 5 degrees C under CO2 declined steadily throughout incubation.     

Influence of elevated temperature on starch hydrolysis by enterotoxin-positive and enterotoxin-negative strains of Clostridium perfringens type A.

Enterotoxin-positive (Ent+) and enterotoxin-negative (Ent-) strains of Clostridium perfringens were cultured in Duncan-Strong sporulation medium containing starch at 37 and 46 degrees C. At 37 degrees C, all strains degraded starch and sporulated well. However, only Ent- strains could hydrolyze starch, grow extensively, and sporulate at 46 degrees C. Growth, sporulation, and starch hydrolysis by Ent+ strains at 46 degrees C were equivalent to those obtained at 37 degrees C when alpha-amylase was added to the cultures during growth. The total amount of extracellular plus intracellular amylase in cultures of Ent+ strains was significantly less in cells incubated at 46 degrees C than in cells incubated at 37 degrees C. These results contradict an earlier report that Ent+ strains cannot sporulate well near their optimal growth temperature (R. G. Labbe and C. L. Duncan, Can. J. Microbiol. 20:1493-1501, 1974) and suggest that synthesis of alpha-amylase in Ent+ strains is regulated by temperature.     

An in vitro model of Chlamydia trachomatis infection in the regenerative phase of the human endometrial cycle

An in vitro model of the regenerative phase of the human endometrial cycle was developed in order to study the growth of Chlamydia trachomatis during the period following menses. Glandular epithelial fragments were prepared from curettings of endometria and explanted onto coated substrata. Epithelial cells migrated rapidly from the explant in a fashion which closely mimicked the regeneration of the surface epithelium after menses. The cultures were then experimentally infected with C. trachomatis serotype E at various times during formation of the outgrowth. Chlamydial inclusions developed both within the explants and in the outgrowing epithelial sheets. They were also found in isolated epithelial and non-epithelial cells. However, the most striking feature of chlamydial inclusion development within these cultures was the tendency for inclusions to be located in cells at the periphery of the epithelial sheets. This was partly due to the failure of the cells within the sheets to bind chlamydiae after centrifugation of the organisms onto the culture and partly due to a phenomenon similar to phagokinesis. During this process infectious chlamydial particles were cleared from the substratum by migrating cells with free motile edges, which occasionally led to internalization and inclusion development within these cells.     

Protease mitogenic response of chick embryo fibroblasts and receptor binding/processing of human alpha-thrombin

Quiescent cultures of chick embryo fibroblasts incubated with human alpha-thrombin (14-219 pM) incorporated [methyl-3H]thymidine proportional to concentration. Inactivated forms of this protease (e.g. active-site-conjugated alpha-thrombin or its hirudin complex) had no mitogenic activity and did not compete with 124I-alpha-thrombin for binding to specific plasma membrane receptors. The noncoagulant but esterolytic active forms, gamma- and nitro-alpha-thrombins, were weakly mitogenic and correspondingly competed weakly for binding. Trypsin competed equally as well as native thrombin for binding, whereas chymotrypsin, elastase, and human urokinase competed with 80-fold less affinity. Plasma, arginine-specific proteases associated with nerve or epidermal growth factors, insulin, and insulin-like growth factors did not compete for binding. These data demonstrate that (a) functional catalytic residues of the thrombin active site are necessary for mitogenic activity and for specific binding; (b) regions adjacent to the active site, i.e. the high affinity protein recognition site, appear to enhance binding; and (c) the receptor can discriminate between other proteases and binds those which are also mitogens for the avian cells. The characteristics of 125I-alpha-thrombin binding were determined, and it was found to be (i) proportional to cell number; (ii) optimal at pH 6.8; (iii) 70-90% specific; (iv) at equilibrium after 60 min of incubation at 22-24 degrees C or 180 min at 0-4 degrees C (the rate constants for association, i.e. ka, at 22 and 4 degrees C were 18 and 1.1 x 10(7) M-1 min-1, respectively); and (v) essentially nondissociable. Nondissociable thrombin that bound during incubation at 0-4 degrees C was distributed equally between trypsin-sensitive and insensitive compartments. Thrombin associated with the former was released into the media when the cells were incubated at 0-4 degrees C with hirudin or hydroxylamine, or transferred to the insensitive compartment when incubated at 22 degrees C. Finally, confluent cultures of fibroblasts bind 2-3 x 10(4) 125I-alpha-thrombin molecules/cell with an apparent binding constant, i.e. Kd, of 0.7 nM (a true Kd could not be determined because of the irreversible nature of thrombin binding). The binding capacity per cell and the apparent Kd value increased proportionally to an increase in culture density.     

Maturation of human lactase-phlorizin hydrolase. Proteolytic cleavage of precursor occurs after passage through the Golgi complex.

Maturation of human intestinal lactase-phlorizin hydrolase (LPH) requires that a precursor (pro-LPH) be proteolytically processed to the mature microvillus membrane enzyme (m-LPH). The subcellular site of this processing is unknown. Using low-temperature experiments and brefeldin A (BFA), intracellular transport was blocked in intestinal epithelial cells. In Caco-2 cells incubated at 18 degrees C, pro-LPH was complex-glycosylated but not cleaved, while at 20 degrees C small amounts of proteolytically processed LPH were observed. These data exclude a pre-Golgi proteolytic event. BFA completely blocked proteolytic maturation of LPH and lead to an aberrant form of pro-LPH in both Caco-2 cells and intestinal explants. Therefore, proteolytic processing of LPH is a post-Golgi event, occurring either in the trans-Golgi network, transport vesicles, or after insertion of pro-LPH into the microvillus membrane.     

Carrier-dependent and carrier-independent uptake of myo-inositol in cultured retinal pigment epithelial cells: activation by heat and concentration

Transport of myo-inositol (MI) was studied in primary cultures of bovine retinal pigment epithelial (RPE) cells. At low external concentrations (0.01-1 mM), uptake appeared to follow saturation kinetics, although the reciprocal forms of the rate equations did not fit either Lineweaver-Burk or Eadie-Hofstee plots. Increasing external concentrations dramatically changed the pattern of MI entry. At two to three orders of magnitude higher than physiological concentrations, a second saturation occurred (pseudo saturation). Cells incubated with 20 microM [3H]MI for 60 min had a ratio of intracellular to extracellular radioactivity greater than or equal to 8, indicating active transport. MI transport reduction by Na+ replacement or inhibitors (phlorizin, ouabain, amiloride, KSCN, iodoacetamide, MI analogues) was greater when RPE cells were incubated with low (20-400 microM) than with high (10-20 mM) MI concentrations. Cells incubated with 20 microM MI at 53 or 65 degrees C showed increased transport (up to 560%) compared with cells at 22 degrees C. The effect on MI uptake (20 microM) of Na+ replacement also was reduced at 53 degrees C. The uptake of MI involved at least two transport systems. The major mechanism at low external MI concentrations (physiological levels) was a carrier-mediated active process. At high external MI levels, uptake occurred by a diffusion process. A lipotropic effect of MI may be responsible for this increased rate of diffusion.