Primary cultures of normal rat kidney proximal tubule epithelial cells for studies of renal cell injury

Summary Normal rat kidney proximal tubule epithelial cell cultures were obtained by collagenase digestion of cortex and studied for 10 days. To assess the purity of the seeding suspension, we histochemically demonstrated γ-glutamyltranspeptidase in >95% of the starting material. To identify cell types in cultures, we investigated several markers. Cells stained positively for lectinArachis hypogaea (rat proximal tubule) and negatively forLotus tetragonolobus (rat distal tubule). Intermediate filament expression of cytokeratin confirmed the epithelial differentiation of the cultured cells. Using indirect immunofluorescence, we found that cultures were negative for vimentin and Factor VIII. Cells exhibited activities of two brush border enzymes, γ-glutamyltranspeptidase and leucine aminopeptidase, and Na⁺-dependent glucose transport activity. Multicellular domes were evident in the Week 2 of culture. Proliferation was studied by comparing growth factor-supplemented serum-free medium to cells grown in serum; growth enhancers included insulin, hydrocortisone, transferrin, glucose, bovine albumin, and epidermal growth factor. Cells proliferate best in medium with 5 or 10% serum and in serum-free medium supplemented with insulin, hydrocortisone, transferrin, glucose, and bovine albumin. Proliferation was assessed by determining cell number (population doublings). By light microscopy, the cells were squamous with numerous mitochondria, a central nucleus, and a rather well-defined homogeneous ectoplasm. By electron microscopy, the cells were polarized with microvilli and cell junctions at the upper surface and a thin basal lamina toward the culture dish. These data show that the proximal tubule epithelial cells retain a number of functional characteristics and that they represent an excellent model for studies of normal and abnormal biology of the renal proximal tubule epithelium. This project was supported by grant 2-R01-DK15440-16A1 from the National Institutes of Health, Bethesda, MD, and by grant N0001 4-88-K-0427 from the Department of the Navy, Washington, DC.     

Staphylococcal enterotoxin-B (SEB) alters [14C]-choline transport and phosphatidylcholine metabolism in cultured human kidney proximal tubular cells

We studied the effects of SEB on [¹⁴C]-choline transport and metabolism of choline containing phospholipids in cultured human kidney proximal tubular (PT) cells. SEB increased the uptake of [¹⁴C]-choline in PT cells as a function of toxin concentration, incubation time, and pH. The maximum increase in uptake (3.5–5-fold compared to control) was observed at a toxin concentration of 10 ug/10⁴ cells, at 4 h and at pH 7.4. Two toxins structurally related to SEB, Staphylococcal enterotoxin-A and toxic shock toxin (TST-1) failed to alter [¹⁴C]-choline uptake in PT cells, a finding which indicates that SEB-mediated alteration in choline uptake in PT cells has high specificity.We found that SEB markedly and significantly increased the incorporation of [¹⁴C]-choline into phosphatidylcholine, Iysophosphatidylcholine and sphingomyelin, but not into phosphatidylethanolamine. Maximum increase in the incorporation of [¹⁴C]-choline into phosphatidlycholine (3-fold compared to control) was observed at 4 h after incubation with toxin. In contrast, SEB did not alter the incorporation of [¹⁴C]-choline in phosphatidylethanolamine. The cellular level of phosphatidylcholine was also increased (2-fold compared to control) in PT cells incubated with SEB. This was accompanied by a 3-to-4-fold increase in CTP: phosphocholine, cytidyltransferase activity.In sum, SEB specifically stimulates phosphatidylcholine synthesis in PT cells by increasing choline uptake or by activating CTP: phosphocholine, cytidyltransferase, or both. We believe this is the first-ever report indicating that a toxin can increase phosphatidylcholine synthesis. This high order of specificity may be in part due to the presence of a glycosphingolipid receptor in PT cells that specifically binds SEB but not SEA or TST-1. Accordingly, it is tempting to speculate that the receptor may somehow be involved in the SEB-mediated regulation of phosphatidylcholine synthesis.Abbreviations SEB Staphylococcal entertoxin-B - SEA Staphylococcal enterotoxin-A - TST-1 Toxic shock syndrome toxin-1 - PT Proximal tubular - PC Phosphatidylcholine - SM Sphingomyelin - LPC Lysophosphatidyl-choline - CT Cytidyltransferase     

Glycosphingolipids: The putative receptor for staphylococcus aureus enterotoxin-B in human kidney proximal tubular cells

We have investigated the binding of ¹²⁵I-staphylococcal enterotoxin-B (SEB) in cultured human proximal tubular cells. We found that the binding of ¹²⁵I-SEB to PT cells was time and concentration dependent and competitively inhibited by antibody against SEB. Preincubation of cells with trypsin and neuraminidase or with fetuin did not significantly impair the binding of ¹²⁵I-SEB to such cells. In contrast, treatment with endoglycoceramidase completely inhibited the binding of ¹²⁵I-SEB to cells. Neutral glycosphingolipids exerted a concentration-dependent inhibition of ¹²⁵I-SEB binding to such cells, maximum inhibition (96% compared to control) occurred upon incubation of PT cells with neutral glycosphingolipids. Taken together, our studies indicate that SEB specifically binds to a neutral glycosphingolipid in PT cells. In contrast, staphylococcal enterotoxin-A and toxic shock toxin (TST-1) are bound to a protein in such cells.Abbreviations SEB Staphylococcal Enterotoxin-B - SEA Staphylococcal Enterotoxin-A - TST-1 Toxic Shock syndrome Toxin - GSL Glycosphingolipid - PT Proximal Tubular - LPDS Lipoprotein Deficient Serum - PBS Phosphate Buffered Saline     

In vitro growth and differentiation of human kidney tubular cells on a basement membrane substrate

Summary Kidney cortical tubular cells, mainly proximal tubular cells, isolated from human kidney and grown either on a basement membrane substrate in chemically defined medium or on plastic in serum-supplemented medium, had substantial proliferative potential and could be propagated for more than 10 generations or 8 passages before senescence. Basement membrane produced on a plastic substrate by the HR-9 endodermal cell line could replace serum supplementation in promoting tubular cell growth. Tubular cells grown on an HR-9 basement membrane substrate exhibited stable epithelial morphology over an extended period of time; in the presence of 5% serum they differentiated into organized structures such as hemicysts and cell cords. Cells grown on plastic failed to differentiate and gradually degenerated. Tubular cells on HR-9 basement membrane were characterized by densely packed microvilli, abundant rough endoplasmic reticulum and free polysomes, basal cell membrane interdigitations, a well-developed endocytotic apparatus, and conspicuous junctional complexes—all features of the proximal tubular cell. Compared with cells on plastic substrate, there were higher levels of the brush border enzymes γ-glutamyl transpeptidase,l-leucine aminopeptidase, and alkaline phosphatase in cells maintained on an HR-9 basement membrane substrate, further supporting the conclusion that a basement membrane substrate promoted differentiation of tubular cells. These data and morphological observations indicate that a basement membrane substrate can promote growth and both functional and morphologic differentiation of human kidney tubular cells. This work was supported by the Veterans Administration.     

Phorbol 12-myristate 13-acetate induces resistance of human melanoma cells to natural-killer-and lymphokine-activated-killer-mediated cytotoxicity

Summary Human melanoma cells are sensitive to the lytic activity of natural killer (NK) and lymphokine-activated killer (LAK) cells in vitro. The events resulting in tumour cell killing by lymphocytic effectors have not been completely clarified, and the same target cell determinants regulating responsiveness to immune cytolysis have not yet been identified. Indeed, changes in the differentiative status of leukemia cells as well as in the expression of major histocompatibility complex (MHC) antigens have been described to modulate sensitivity to cytotoxic effectors; moreover surface expression of adhesion factors or extracellular matrix proteins by the cancer cells can promote the activation of the cytolytic effectors and has been described to correlate with tumour cell sensitivity to cytolytic cells. We reasoned that treatment with differentiation inducers could modulate melanoma cell sensitivity to NK and LAK cells. The present study demonstrates that human melanoma GLL-19 cells, when treated with the phorbol diester phorbol 12-myristate 13-acetate (PMA) in vitro, undergo growth inhibition and neuron-like differentiation. Moreover PMA treatment induces an evident inhibition of GLL-19 cell sensitivity to NK- and LAK-mediated cytotoxicity. GLL-19 cells express constitutively MHC class I antigens. PMA treatment, however, does not modify the expression of MHC class I and class II DR antigens in human melanoma GLL-19 cells. We have finally evaluated the effects of PMA on the expression at the cell surface of adhesion factors such as ICAM-1, and extracellular matrix proteins such as collagen IV, laminin and fibronectin; we have also studied the expression of the integrin vitronectin receptor, a membrane receptor for adhesive proteins. While adhesion factors and extracellular matrix proteins appear to play an important role in the interaction between immune effector and tumour target, it can be supposed that the modulation of such membrane-associated proteins or glycoproteins induces NK and LAK resistance in cancer cells. We indeed found that PMA treatment induced in GLL-19 a marked reduction of membrane expression of collagen IV and ICAM-1; moreover PMA reduced the cell membrane expression of the integrin vitronectin receptor. On the other hand, membrane expression of fibronectin and laminin was not affected by PMA. These data indicate that the acquisition of a NK- and LAK-resistant phenotype by GLL-19 cells occurs together with cell differentiation, down-regulation of membrane expression of collagen IV, ICAM-1 and vitronectin receptor, but in the absence of changes in MHC antigens.This work has been supported by the Italian Association for Cancer Research (A. I. R. C.) and by Istituto Superiore di Sanità, Italy-USA joint program on New Therapies on Neoplasia.     

Alterations in growth requirements of kidney epithelial cells in defined medium associated with malignant transformation

The possibility has been investigated that (1) the supplements required for the growth of the Madin Darby Canine Kidney (MDCK) cell line in serum-free Medium K-l are indeed requirements for the growth of normal kidney cells in vitro, and (2) that alterations in these growth requirements are associated with malignant transformation. Consistent with the hypothesis that MDCK cells resemble normal kidney cells in culture, primary cultures of baby mouse kidney epithelial cells grow in Medium K-l and respond to the 5 components in the-medium. The growth properties of Moloney sarcoma virus (MSV)-transformed MDCK cells in defined media have been examined. Unlike MDCK cells, MSV-transformed MDCK cells form tumors in adult nude mice. Although they still respond to the 5 factors in Medium K-l, the optimal dosage for insulin is lower for the MSV transformants than for MDCK cells. The MSV transformants also have an additional requirement for growth in Medium K-l – fibronectin. Variants of MDCK cells have been isolated that have lost the PGE₁ requirement for growth in defined medium. These variant cells have acquired (1) the ability to form tumors in adult nude mice and (2) an alteration affecting cAMP metabolism, in addition to PGE₁ independence.     

The effect of tubular damage by mercuric chloride on kidney function and some urinary enzymes in the dog

Alkaline and acid phosphatases, β-glucosidase, β-galactosidase, N-acetyl-β-glucosaminidase and lactate dehydrogenase were monitored in the urine and serum of dogs with renal tubular damage induced by a series of increasing doses of mercuric chloride. Isocitrate dehydrogenase, glutamate oxaloacetate transaminase and glutamate pyruvate transaminase were assayed in the serum. The functional capacity of the kidney was determined by creatinine, inulin and p-aminohippurate (PAH) clearances and tubular maxima tests. Serum urea levels, total protein in the urine and the specific gravity of the urine were monitored throughout the study. The extent and location of the kidney damage was determined by histological investigation. Evidence is presented that the assay of urinary alkaline and acid phosphatase is the most sensitive method of detecting renal tubular damage in the dog. The clearance of [¹⁴C]-propranolol was compared before and after the administration of mercuric chloride. In the presence of tubular damage the blood half-life of propranolol and the rate of excretion of metabolites in the urine were increased.     

Cytotoxic effects of FK506 on human renal proximal tubule cells in culture

Summary FK506 has been used as the primary immunosuppressive agent administered after a variety of organ transplants, with less reported nephrotoxicity than that of cyclosporine. This study examined in vitro cytotoxicity of FK506 on normal human renal proximal tubule cells. Cytotoxicity was assessed by neutral red inclusion and trypan blue exclusion; morphology was assessed by light and transmission electron microscopy. Neutral red inclusion decreased to less than 10% of the control after 3 days exposure to 200μg/ml FK506. Forty microgram per milliliter FK506 caused a decrease in neutral red inclusion to 61% of the control on Day 7, with recovery to 86% on Day 12. Similarly, trypan blue exclusion decreased to 66% of the control following 7 days exposure to 40μg/ml FK506, and confluency of the monolayer was reduced to 50% as evidenced by phase contrast microscopy. After a 12-day exposure, treated monolayers became more confluent. On ultrastructural examination, FK506-treated cells exhibited increased cytoplasmic vacuolation and lipid inclusion. These data suggest that FK506 is reversibly and mildly toxic to monolayers of human renal proximal tubule cells and are consistent with clinical reports of reversible nephrotoxicity.     

Development and validation of a gas chromatography/ion trap-mass spectrometry method for simultaneous quantification of cocaine and its metabolites benzoylecgonine and norcocaine: application to the study of cocaine metabolism in human primary cultured renal cells

Acute renal failure is a common finding in cocaine abusers. While cocaine metabolism may contribute to its nephrotoxic mechanisms, its pharmacokinetics in kidney cells is hitherto to be clarified. Primary cultures of human proximal tubular cells (HPTCs) provide a well-characterized in vitro model, phenotypically representative of HPTCs in vivo. Thus, the present work describes the first sensitive gas chromatography/ion trap-mass spectrometry (GC/IT-MS) method for measurement of cocaine and its metabolites benzoylecgonine (BE) and norcocaine (NCOC) using a primary culture of HPTCs as cellular matrix, following solid phase extraction (SPE) and derivatization with N-methyl-N-(trimethylsilyl)trifluoroacetamide (MSTFA). The application of this methodology also enables the identification of two other cocaine metabolites: ecgonine methyl ester (EME) and anhydroecgonine methyl ester (AEME). The validation of the method was performed through the evaluation of selectivity, linearity, precision and accuracy, limit of detection (LOD), and limit of quantification (LOQ). Its applicability was demonstrated through the quantification of cocaine, BE and NCOC in primary cultured HPTCs after incubation, at physiological conditions, with 1 mM cocaine for 72 h. The developed GC/IT-MS method was found to be linear (r2 > 0.99). The intra-day precision varied between 3.6% and 13.5% and the values of accuracy between 92.7% and 111.9%. The LOD values for cocaine, BE and NCOC were 0.97±0.09, 0.40±0.04 and 20.89±1.81 ng/mL, respectively, and 3.24±0.30, 1.34±0.14 and 69.62±6.05 ng/mL as LOQ values.     

Proliferative potential and expression of cell type specific functions in primary mouse colonic epithelial cells

Summary Primary cultures of mouse colonic epithelial cells have been obtained that are typically epithelial by morphology and moreover express keratins and endogenousβ-galactosidase; this latter activity was also demonstrated in the epithelial lining of the mouse colonic mucosa. The proliferative response of the primary colonic epithelial cells to epidermal growth factor, insulin, and the bile acid, deoxycholic acid, has been studied. Using primary cultures maintained at suboptimal growth conditions, which yielded 96 to 100% quiescent cells, epidermal growth factor, insulin, and the bile acid, deoxycholic acid, at concentrations at which it normally occurs in the aqueous phase of human feces, stimulated proliferation as measured by autoradiography. Exposure of the cells to combinations of these factors resulted in additive increases in growth. In conclusion, cells from the normal mouse colon can now be cultured while retaining at least two normal marker functions and moreover respond to some known mitogens and the potential tumor promoter deoxycholic acid. The cells can also be subcultivated while maintaining their epithelial morphology and marker functions for at least 3 passages.     

Inhibition of aquaporin-1 expression by RNAi protects against aristolochic acid I-induced apoptosis in human proximal tubular epithelial (HK-2) cells

The aim of this study was to investigate the protective effect of inhibition of aquaporin-1 (AQP1) expression against aristolochic acid I (AA-I)-induced apoptosis. HK-2 cells impaired by AA-I were used in this study as the cell model of aristolochic acid nephropathy. Apoptosis was studied by different methods, including 3-(4,5-dimethyl-thiazol-2-yl)-2,5-diphenyl-tetrazolium bromide (MTT) assays, flow cytometry, and caspase 3 activity assays. We compared AA-I-mediated apoptosis in HK-2 cells with or without knockdown of AQP1 expression by RNA interference. MTT assays showed that AA-I inhibited the viability of HK-2 cells in a time- and concentration-dependent manner. Apoptosis was evidenced by the results of the Annexin V/propidium iodide assay and the occurrence of a sub-G1 peak in cell-cycle analysis. The activity of caspase 3 was found to have been increased by AA-I in a concentration-dependent manner. However, AQP1 RNA interference provided protection against injury in cells treated with AA-I (40 μM) for 24 h and attenuated the number of apoptotic cells. These results suggested that AQP1 plays an important role in AA-I-induced apoptosis and that inhibition of AQP1 expression may protect HK-2 cells from AA-I-induced apoptotic damage.     

Ferric cacodylate efficiently stimulates growth of rat renal glomerular epithelial cells in vitro

Rat renal glomerular epithelial cells (SGE1 cell line) can be maintained and grown continuously in serum-free medium supplemented with insulin, iron-saturated transferrin (Tr), selenium, bovine serum albumin (BSA), linoleic acid, and epidermal growth factor (EGF). Of the growth supplements used, Tr is essential for proliferation of the cells. In the present study, we describe the use of a unique iron-chelate complex, ferric cacodylate (Fe-Cac), positively charged molecules in neutral buffer, that could almost replace Tr in serum-free culture. It even stimulated the growth of SGE1 cells more efficiently than ferric chloride (FeCl₃) and other iron-chelate complexes, such as ferric nitrilotriacetate (Fe-NTA) and ferric citrate (Fe-Cit). The growth-stimulatory activity of Fe-Cac was exerted at iron concentrations of more than 0.01 g/ml, whereas a 10-fold excess of iron concentration was required with FeCl₃, Fe-NTA and Fe-Cit. We observed that SGE1 cells grew until confluent, then formed hemicysts (domes) in serum-free medium containing Fe-Cac, suggesting that Fe-Cac did not merely permit cell growth but also supported polarization and organization of the cells into a functional epithelial architecture. Moreover, since the stimulatory activity of Fe-Cac was completely abolished by desferrioxamine, a strong iron chelator, it is suggested that iron is crucial for growth of SGE1 cells. When the cells were treated with suramin, an inhibitor of cellular pinocytosis and endocytosis of a large spectrum of ligands including receptor-bound growth factors, growth-stimulatory activity of Tr was inhibited, whereas the activity of Fe-Cac was not affected. These results, taken together, strongly suggest that the growth-stimulatory activity of Fe-Cac is associated with iron delivery into the cells through the cell membrane by diffusion, which is different from Tr receptor-mediated endocytosis. The use of Fe-Cac for investigating iron-regulated cell proliferation is suggested.     

A new in vitro bioassay for cyst formation by renal cells from an autosomal dominant rat model of polycystic kidney disease

Summary Autosomal dominant polycystic kidney disease (ADPKD) is one of the most frequent human inherited diseases. The main feature of the disease is the development of renal cysts, first occurring in the proximal tubules, and with time, dominating all segments of the nephron, leading to end-stage renal disease in 50% of the patients in their fifth decade of life. A therapy for polycystic kidney disease (PKD) has not yet been developed. Patients coming to end-stage ADPKD require long-term dialysis and/or transplantation. A suitable animal model to study ADPKD is the spontaneously mutated Han:SPRD (cy/ +) rat, but a method to cultivate Han:SPRD (cy/ +) derived renal cells which preserves their ability to form cyst-like structures in vitro has previously not been reported. Based on this well-characterized animal model, we developed a cell culture model of renal cyst formation in vitro. When renal cells of the Han:SPRD (cy/ +) rat were isolated and cultured under conditions that prevent cell-substratum adhesion, large amounts of cyst-like structures were formed de novo from Han:SPRD (cy/ +) derived renal cells, but only a few from control rat renal cells. In contrast, when cultivated on plastic as monolayer cultures, Han:SPRD (cy/ +)-derived and control rat-derived renal cells were indistinguishable and did not form cyst-like structures. Immunohistochemical characterization of the cyst-like structures suggests tubular epithelial origin of the cyst-forming cells. The amount of cysts formed from Han:SPRD (cy/ +)-derived renal cells grown in a stationary suspension culture is susceptible to modulation by different conditions. Human cyst fluid and epidermal growth factor both stimulated the formation of cysts from Han:SPRD (cy/ +)-derived renal cells whereas taxol inhibited cystogenesis. In contrast, neither human cyst fluid nor epidermal growth factor affected the amount of cysts formed by control rat renal cells. As the culture model reported here allows not only the distinction of PKD-derived tubular epithelium from its normal counterpart, but also the modulation of cyst formation especially by Han:SPRD (cy/ +)-derived renal cells, it might be a useful prescreening protocol for potential treatments for PKD and thus reduce the need for animal experiments. Both authors contributed equally to the work.     

Overexpression of RGPR-p117 enhances regucalcin gene promoter activity in cloned normal rat kidney proximal tubular epithelial cells: involvement of TTGGC motif

A novel protein RGPR-p117 was discovered as regucalcin gene promoter region-related protein that binds to the TTGGC motif using a yeast one-hybrid system. RGPR-p117 is localized in the nucleus of kidney cells, and overexpression of RGPR-p117 can modulate regucalcin protein and its mRNA expression in the cloned normal rat kidney proximal tubular epithelial NRK52E cells. This study was undertaken to determine whether overexpression of RGPR-p117 enhances the regucalcin promoter activity using the -710/+18 LUC construct (wild-type) or -710/+18 LUC construct (mutant) with deletion of -523/-435 including TTGGC motif. NRK52E cells (wild-type) or stable HA-RGPR-p117/phCMV2-transfected cells (transfectant) were cultured in Dulbecco's minimum essential medium (DMEM) containing 5% bovine serum (BS). Wild-type cells or transfectants were transfected with the -710/+18 LUC construct vector or the -710/+18 LUC construct with deletion of -523/-435. Wild-type cells or transfectants with subconfluency were cultured for 48 h in a DMEM medium containing either vehicle, BS (5%), or parathyroid hormone (1-34) (PTH; 10(-7) M). Luciferase activity in wild-type cells was significantly increased with culture of BS or PTH. This increase was significantly blocked in the presence of various protein kinase inhibitors (staurosporine and PD 98059). Luciferase activity in transfectants was significantly increased as compared with that of wild-type cells in the absence of BS or PTH. The increase in luciferase activity in transfectants was completely decreased in mutant with deletion of -523/-435 sequence of regucalcin promoter. This was also seen using the -710/+18 LUC construct with deletion of -523/-503 sequence containing TTGGC motif. The increase in luciferase activity in transfectants was not significantly enhanced with culture of BS (5%), PTH (10(-7) M), Bay K 8644 (10(-6) M), phorbol 12-myristate 13-acetate (PMA; 10(-6) M), or N(6), 2'-dibutyryl cyclic adenosine 3', 5'-monophosphate (DcAMP; 10(-4) M). The increase in luciferase activity in transfectants was completely inhibited with culture of dibucaine (10(-6) M), staurosporine (10(-9) M), PD 98059 (10(-8) M), wortmannin (10(-8) M), genistein (10(-6) M), vanadate (10(-6) M), or okadaic acid (10(-6) M) which are inhibitors of various kinases and protein phosphatases. This study demonstrates that RGPR-p117 can enhance the regucalcin promoter activity which is related to the NF-1 consensus sequences including TTGGC motif, and that its enhancing effect is partly mediated through phosphorylation and dephosphorylation in NRK52E cells.     

人卵巢颗粒细胞的体外培养方法探讨

目的建立人卵巢颗粒细胞分离纯化、体外培养的有效方法。方法收集体外受精—胚胎移植(IVF-ET)穿卵时的卵泡液,用胰蛋白酶消化法及密度梯度离心法分离纯化颗粒细胞并用不同培养基进行培养。结果用体积分数为50%的Percoll细胞分离液分离,DMEM/F12或McCoy’5a液体培养基进行培养,细胞纯度高,存活率高,后续生长良好。结论建立了人卵巢颗粒细胞体外培养的稳定模型,为颗粒细胞的体外研究奠定良好的基础。     

Stimulated secretion of lysosomal enzymes induced by drugs in transimmortalized proximal tubule mouse kidney cells

We summarize the results of study of the properties of two models of transimmortalized proximal tubule epithelial cells derived from the kidneys of transgenic mice harboring the SV40 large T and little t antigens/L-pyruvate kinase hybrid gene. The two cell lines, reffered to as PKSV-PCT and PKSV-PR cells, maintained for long-term passages the main biochemical and functional properties from the convoluted and terminal parts of the proximal tubule, respectively from which they were derived. In PKSV-PCT cells, gentamicin induced lysosomal alkalinization, decreased the cellular N-acetyl--D-glucuronidase, and stimulated its secretion in a dose-dependent manner. The results indicate that these models of mouse proximal cultured cells could be suitable models for the study of the cellular action of drugs.Abbreviations MDR multidrug resistance - NAG N-acetyl--D-glucuronidase - PGP P-glycoprotein     

Demonstration and maintenance of mucus secretion in cultured human gallbladder epithelial cells

Summary The method of human gallbladder epithelial cell culture has been developed successfully with active mucus secretory function. Human gallbladder epithelial cells were dissociated by Dispase digestion from the specimens obtained by cholecystectomy for uncomplicated gallbladder stone cases. The dissociated cells formed a monolayer in Eagle’fs minimum essential medium supplemented with 10% fetal bovine serum within 24 h after the inoculation. These cells were maintained for at least 2 wk without fibroblastic overgrowth. Cultured cells contained periodic acid Schiff-positive material in cellular cytoplasm for 3 d. On transmission electron microscopy these materials were identified as mucous secretory granules. Mucous secretory function was determined by [³H]glucosamine incorporation. Sixty percent of the secreted glycoproteins labeled with [³H]glucosamine was eluted in excluded fractions of Sepharose 4B gel filtration, which were considered to be mucous glycoprotein, because they were found to be resistant to proteoglycan-specific enzymes such as hyaluronidase, chondroitinase ABC, heparitinase, and heparinase. The mucous glycoprotein secretion was maintained for 3 d and found to be inhibited in a dose-dependent manner by monensin (10⁻⁷ to 10⁻⁵ M) which is a known blocker of secretory function.     

Single-strand breaks, cell cycle arrest and apoptosis in HL-60 and LLCPK1 cells exposed to 1,2-dibromo-3-chloropropane

We investigated 1,2-dibromo-3-chloropropane (DBCP)-induced DNA damage, cell cycle alterations and cell death in two cell lines, the human leukemia HL-60 and the pig kidney LLCPK₁, both of which are derived from potential target sites for DBCP-induced toxicity. DBCP (30–300 µmol/L) caused a concentration-dependent increase in the levels of DNA single-strand breaks in both cell lines as well as in cultured human renal proximal tubular cells. After extended DBCP exposure in LLCPK₁ cells (100 µmol/L, 30 h), the level of DNA breaks returned almost to control values. Incubation for 48 h showed a clear reduction of growth with DBCP concentrations as low as 10 µmol/L. Flow cytometric analysis showed that DBCP (1–10 µmol/L) exposure for 24 h caused an accumulation of LLCPK₁ cells in the G₂/M-phase. In HL-60 cells the accumulation in G₂/M-phase was less marked, and at higher concentrations the cells accumulated in S-phase. Flow cytometric studies of HL-60 and LLCPK₁ cells exposed to 100–500 µmol/L DBCP showed increased number of apoptotic cells/bodies with a lower DNA content than that of the G₁ cells. Microscopic studies revealed that there were increased numbers of cells with nuclear condensation and fragmentation, indicating that apoptosis was the dominant mode of death in these cell lines, following exposure to DBCP. The characteristic ladder pattern of apoptotic cells was observed when DNA from DBCP-treated HL-60 cells and LLCPK₁ cells was electrophoresed in agarose. The finding that DBCP can cause an accumulation of cells in G₂/M-phase and induce apoptosis in vitro may be of importance for the development of DBCP-induced toxicity in vivo.