[Randomized controlled study on the application effect of a new type of intravenous radiofrequency closed therapy system made in China and an imported system]

Objective: To compare the application effect of domestic and imported intravenous radiofrequency closure system in the treatment of primary varicose veins of lower extremities. Methods: This single-center prospective, non-inferiority randomized controlled trial was performed in the Department of Vascular Surgery, the Fourth Affiliated Hospital, Zhejiang University School of Medicine from January 2021 to January 2022. Patients with primary varicose veins of lower extremities who met the ataxation criteria were randomly assigned to the experimental group(domestic novel venous radiofrequency closure system) or the control group(imported venous radiofrequency closure system) in a ratio of 1∶1. The two groups of subjects were compared in terms of target vein closure rate, technical success rate, system operation performance, incidence of adverse events and incidence of serious adverse events(SAE) within 6 months after surgery. Quantitative data were compared by Mann-Whitney U test, and categorical data were compared by χ2 test and non-inferiority test. Results: A total of 80 subjects were included in the trial (41 in the experimental group and 39 in the control group), including 27 males and 53 females, aged (M(IQR)) 55(23) years (range:40 to 78 years). There were 48 cases of left lower limb and 32 cases of right lower limb. The technical success rate and system control performance between the groups were 100%.The incidence of adverse events (58.5% (24/41) vs. 61.5% (24/39), χ2=0.075, P=0.784), and the incidence of SAE (7.3% (3/41) vs. 5.1% (2/39), χ2=0.163, P=0.686) within 6 months after surgery in experimental group and control group had no statistical significance. There was one device-related adverse event in each of the two groups. In the experimental group, one patient developed endovenous heat-induced thrombosis after surgery and recovered after taking rivaroxaban tablets. One patient in the control group had pain in the upper right thigh for more than 1 day after operation, which was cured after using analgesic cream. No device-related SAE occurred. The venous closure rate of the experimental group was 100% (38/38) at 6 months after surgery, and that of the control group was 97.4% (37/38). The difference between the two groups was 2.63% (95%CI:-3.19 to 8.45, Z=4.865, P<0.01), and the 95%CI lower limit of the difference in target venous closure rate between two groups was greater than the non-inferiority threshold of -10.00%. Conclusion: The early application effect of the new domestic intravenous radiofrequency closure system in patients with primary varicose veins of lower extremities is in line with expectations, it is not inferior to the imported system.

[Caution over diagnosis of preperimetric glaucoma]

Preperimetric glaucoma (PPG) refers to the earliest stage of primary open-angle glaucoma (POAG) before emergence of visual field defects. However, the existence and diagnosis of the PPG stage remains controversial. In this article, with focuses on the clinical significance of intraocular pressure measurements, the etiology classification of POAG, the value of follow-up to PPG diagnosis, the accuracy of devices and methods, and genetic factors of POAG, we point out that PPG should be carefully diagnosed in clinical practice. It is hoped that constant and deep understanding of PPG could help to reach consensus opinions, thus improving and enhancing the diagnosis and treatment of glaucoma.

Cloud condensation nucleation activities of calcium carbonate and its atmospheric ageing products

Aerosol particles can serve as cloud condensation nuclei (CCN) to form cloud droplets, and its composition is a main factor governing whether an aerosol particle is an effective CCN. Pure mineral dust particles are poor CCN; however, changes in chemical composition of mineral dust aerosol particles, due to heterogeneous reactions with reactive trace gases in the troposphere, can modify their CCN properties. In this study we investigated the CCN activities of CaCO3 (as a surrogate for mineral dust) and its six atmospheric ageing products: Ca(NO3)2, CaCl2, CaSO4, Ca(CH3SO3)2, Ca(HCOO)2, and Ca(CH3COO)2. CaCO3 has a very low CCN activity with a hygroscopicity parameter (κ) of 0.001-0.003. The CCN activities of its potential atmospheric ageing products are significantly higher. For example, we determined that Ca(NO3)2, CaCl2 and Ca(HCOO)2 have κ values of ∼0.50, similar to that of (NH4)2SO4. Ca(CH3COO)2 has slightly lower CCN activity with a κ value of ∼0.40, and the κ value of CaSO4 is around 0.02. We further show that exposure of CaCO3 particles to N2O5 at 0% relative humidity (RH) significantly enhances their CCN activity, with κ values increasing to around 0.02-0.04. Within the experimental uncertainties, it appears that the variation in exposure to N2O5 from ∼550 to 15,000 ppbv s does not change the CCN activities of aged CaCO3 particles. This observation indicates that the CaCO3 surface may be already saturated at the shortest exposure. We also discussed the atmospheric implications of our study, and suggested that the rate of change in CCN activities of mineral dust particles in the troposphere is important to determine their roles in cloud formation.

Restriction-ligation-free (RLF) cloning: a high-throughput cloning method by in vivo homologous recombination of PCR products

In this study, we optimized a restriction-ligation-free (RLF) method to save time and cost of constructing multiple plasmids with the same gene insert, and examined the efficacy of RLF on high-throughput multi-plasmid cloning. This method utilizes the precise DNA repair and recombination systems within Escherichia coli, which allows to bypass the in vitro restriction and ligation enzyme reactions commonly included in routine cloning procedures. A homologous arm is linked to the 5'-end of the forward primer used to amplify both the target gene and vector. A different homologous arm is linked to the 5'-end of the reverse primer. Therefore, genes can be cloned into the vectors by homologous recombination after co-transformation of the amplified target gene and the linearized vector, which bear the same homologous arm on either end. More than twenty-four different plasmids were generated by this method, which uses two simple polymerase chain reaction steps. This method is highly efficient in cloning any gene of interest into any vector at any site without sequence constraints, as no restriction and ligation reactions are required.

Optical trapping and Raman spectroscopy of solid particles

Stable levitation and spectroscopic interrogation of solid particles is achieved, over extended time periods, using a new optical trap design.

Novel mRNA isoforms and mutations of uridine monophosphate synthetase and 5-fluorouracil resistance in colorectal cancer

The drug fluorouracil (5-FU) is a widely used antimetabolite chemotherapy in the treatment of colorectal cancer. The gene uridine monophosphate synthetase (UMPS) is thought to be primarily responsible for conversion of 5-FU to active anticancer metabolites in tumor cells. Mutation or aberrant expression of UMPS may contribute to 5-FU resistance during treatment. We undertook a characterization of UMPS mRNA isoform expression and sequence variation in 5-FU-resistant cell lines and drug-naive or -exposed primary and metastatic tumors. We observed reciprocal differential expression of two UMPS isoforms in a colorectal cancer cell line with acquired 5-FU resistance relative to the 5-FU-sensitive cell line from which it was derived. A novel isoform arising as a consequence of exon skipping was increased in abundance in resistant cells. The underlying mechanism responsible for this shift in isoform expression was determined to be a heterozygous splice site mutation acquired in the resistant cell line. We developed sequencing and expression assays to specifically detect alternative UMPS isoforms and used these to determine that UMPS was recurrently disrupted by mutations and aberrant splicing in additional 5-FU-resistant colorectal cancer cell lines and colorectal tumors. The observed mutations, aberrant splicing and downregulation of UMPS represent novel mechanisms for acquired 5-FU resistance in colorectal cancer.

Concentration-dependent Exsorption of Quinidine in the Rat Intestine

During intravenous infusion, the luminal concentration of quinidine was higher than the plasma concentration. The intestinal clearance (CLi) of the drug was measured by dividing the rate of appearance of the drug in the intestinal luminal perfusate by the plasma concentration. The CLi of quinidine was therefore much higher than the rate of luminal perfusion. Over the infusion dose range of 0·1–2 mg h−1, the CLi of quinidine decreased with increasing plasma concentration of quinidine. Adding quinidine into the luminal perfusate had little effect on the CLi of quinidine. Co-administration of quinidine with other agents intravenously did not alter the CLi of salicylic acid and urea, while the same treatment decreased the CLi of theophylline and 5-disopyramide. In-vitro experiments on brush-border membrane vesicles showed that quinidine decreased the rate of Na+ uptake and H+ efflux. The inhibition was significant at quinidine concentrations above 20 μm. Quinidine was a more potent inhibitor than amiloride. At quinidine infusion rates less than 2 mg h−1, quinidine concentration in plasma or in the luminal perfusate was at the lower limit of the inhibitory concentration. Microclimate pH at the intestinal surface was also measured. At mid-jejunum, the microclimate pH increased 0·3 pH units by infusing 2 mg h−1 of quinidine, while the microclimate pH at most other measuring sites was not significantly altered by quinidine infusion. It was concluded that quinidine is exsorbed from blood into the intestinal lumen by a carrier-mediated pathway in addition to the passive diffusion. At high plasma concentration, quinidine exsorption becomes saturated. Quinidine inhibited the intestinal exsorption of theophylline and S-disopyramide possibly by competition on the carrier.

Intracellular alkalinization in dexamethasone-induced thymocyte apoptosis

Glucocorticoid can induce apoptosis of thymocytes, but its mechanism is not clear yet. In this study, we reported that dexamethasone-induced apoptosis was associated with intracellular alkalinization. Dexamethasone induced a higher percentage of apoptosis in 138 mM than in 50 mM NaCl, total abrogation of apoptosis was noted in NaCl-depleted culture medium. Highest apoptotic rate was observed in medium with pH 7.2, whereas it was partially and completely inhibited at pH 6.5 and pH 6.0, respectively. Intracellular pH was higher in pre-apoptotic thymocytes than non-apoptotic ones. The Na+/H+ antiporter inhibitor of 5-(N,N'-dimethyl)-amiloride inhibited the dexamethasone-induced increase in pHi and apoptosis of thymocytes. Glucocorticoid antagonist RU486 also blocked the dexamethasone-induced effect. Furthermore, the apoptosis and increase in intracellular pH induced by dexamethasone were inhibited by cycloheximide, actinomycin D. It seems that intracellular pH is increased during the development of thymocyte apoptosis and inhibiting its increment would retard the rate of progression to cell death.

Renal fibrosis: prediction from acute pyelonephritis focus volume measured at 99mTc dimercaptosuccinic acid SPECT

PURPOSE

To evaluate whether acute pyelonephritis lesion volume derived from acute technetium 99m ((99m)Tc) dimercaptosuccinic acid (DMSA) renal single photon emission computed tomographic (SPECT) images is predictive of the development of subsequent renal fibrosis.

MATERIALS AND METHODS

Children with acute pyelonephritis underwent (99m)Tc DMSA renal SPECT during acute infection and 6-10 months later. At quantitative analysis, the volume of photopenic lesions and the ratio of radioactivity in the photopenic lesion to that in normal renal tissue were calculated. Sensitivity, specificity, and positive and negative predictive values were determined.

RESULTS

Sixty-nine acute pyelonephritis foci in 44 children were analyzed. Thirty-seven (54%) of these lesions were normal on follow-up renal scans, while 32 (46%) developed scars. Significant differences in the photopenic lesion volume were found between the two groups (P < .001). When photopenic lesion volume indicated a positive diagnosis (>or=4.6-cm(3) lesion volume), sensitivity, specificity, positive predictive, and negative predictive values were 96.7%, 92.3%, 90.6%, and 97.3%, respectively.

CONCLUSION

Quantitative analysis of acute DMSA renal SPECT findings is valuable in predicting renal fibrosis. The volume of an acute pyelonephritis lesion is useful in predicting the development of fibrosis.

Collagen gel overlay induces two phases of apoptosis in MDCK cells

We previously demonstrated that collagen gel overlay induced cell remodeling to form lumen and apoptosis in Madin-Darby canine kidney cells. In the present study, we established that collagen gel overlay-induced apoptosis was initiated at areas exclusive of cell remodeling within 24 h (first phase) and extended into areas of cell remodeling within 48 h (second phase). Collagen gel overlay-induced apoptosis was accompanied by selective proteolysis of focal adhesion kinase (FAK), talin, p130cas, and c- src. Upon collagen gel overlay, FAK was initially degraded into a 90-kDa product during the first phase and subsequently into a 80-kDa product during the second phase. Collagen gel overlay-induced apoptosis of focal adhesion complex proteins and apoptosis of the first phase could be blocked only by a protease inhibitor cocktail. In addition, we found that both DEVD-fmk and ZVAD-fmk inhibited secondary proteolysis of FAK, but only ZVAD-fmk blocked collagen gel overlay-induced apoptosis of the second phase. Finally, collagen gel overlay-induced apoptosis and proteolysis of focal adhesion complex proteins were completely inhibited by the combination of protease inhibitor cocktail and ZVAD-fmk. Taken together, collagen gel overlay induces two phases of apoptosis; the first phase is dependent on proteolysis of focal adhesion complex proteins, and the second phase on activation of caspases.

Role of alpha(3)beta(1) integrin in tubulogenesis of Madin-Darby canine kidney cells

BACKGROUND

We isolated several Madin-Darby canine kidney (MDCK) subclones that exhibit different degrees of branching tubulogenesis in lower concentrations of collagen gel. The M634 clone formed cell aggregates in 0.3% collagen gel, but developed branching tubules vigorously in 0.1% collagen gel. In contrast, the Y224 clone formed cysts in 0.3% collagen gel and displayed fewer branching structures in 0.1% collagen gel. Morphologically, M634 cells exhibited higher levels of cell scattering as well as collagen-induced cell migration than Y224. We conducted this study to delineate the underlying mechanism of branching tubulogenesis in M634 cells.

METHODS

Components of the focal contact machinery were analyzed in both cell lines, including the extracellular matrix glycoproteins fibronectin, laminin, and vitronectin; cytoskeleton-associated elements alpha-actinin, talin, and vinculin; and receptors for extracellular matrix and alpha(2), alpha(3), alpha(5), alpha(v), beta(1), and beta(3) integrins. Furthermore, we established several stable transfectants of alpha(3) integrin antisense RNA in M634 cells to examine the role of alpha(3)beta(1) integrin in branching morphogenesis directly.

RESULTS

There were no obvious differences in levels of the focal adhesion complex proteins between M634 and Y224 cells, except that the content of the alpha(3) and beta1 integrins were 1.2- and 0.6-fold higher in M634 cells, respectively. The expression of alpha(3) integrin antisense RNA significantly lowered the levels of alpha(3) integrin mRNA and protein. The potential of cell scattering, migration, and branching tubulogenesis in M634 cells was inhibited according to the decrease in alpha(3) integrin expression.

CONCLUSION

Our data indicate that expression of alpha(3)beta(1) integrin regulates cell scattering, migration, and branching tubulogenesis of MDCK cells, possibly via adhesion to or serving as a signaling molecule for type I collagen.

The pro domain of beta-secretase does not confer strict zymogen-like properties but does assist proper folding of the protease domain

beta-Secretase (BACE) is a membrane-bound aspartyl protease that cleaves the amyloid precursor protein to generate the N terminus of the amyloid beta peptide. BACE is expressed as a precursor protein containing Pre, Pro, protease, transmembrane, and cytosolic domains. A soluble BACE derivative (PreProBACE460) that is truncated between the protease and transmembrane domains was produced by baculovirus-mediated expression. ProBACE460 was purified from conditioned media of infected insect cells using immobilized concanavalin A and immobilized BACE inhibitor, P10-P4' Stat(Val). Furin cleaves ProBACE460 between the Pro and protease regions to generate mature BACE460. The k(cat)/K(m) of ProBACE460 when assayed with a polypeptide substrate is only 2.3-fold less than that of BACE460. This finding and the similar inhibitory potency of P10-P4' Stat(Val) for ProBACE460 and BACE460 suggest that the Pro domain has little effect on the BACE active site. Exposure of ProBACE460 to guanidine denaturation/renaturation results in a 7-fold higher recovery of BACE activity than when BACE460 is similarly treated. The presence of free BACE Pro peptide during renaturation of BACE460 but not ProBACE460 increases recovery of activity. These findings show that the Pro domain in ProBACE460 does not suppress activity as in a strict zymogen but does appear to facilitate proper folding of an active protease domain.

Role of fibronectin deposition in branching morphogenesis of Madin-Darby canine kidney cells

BACKGROUND

Madin-Darby canine kidney (MDCK) epithelial cells grown in collagen gels in the presence of hepatocyte growth factor (HGF) form branching tubules. The tubule-lining epithelial cells are polarized with the basolateral surface in contact with the collagen gel and the apical surface facing the lumen. To delineate whether MDCK branching tubules construct the basal lamina, we characterized the composition of the extracellular matrix deposited by MDCK tubules. The tubule-lining cells produced an apparently incomplete basal lamina containing a discontinuous laminin substratum. In addition, a thick layer of fibronectin surrounded the basal cell surface of the branching tubule. In an attempt to delineate the role of fibronectin deposition in branching morphogenesis, we conducted this study.

METHODS

MDCK cells cultured in collagen gel were employed. We first used arginine-glycine-aspartate peptides containing disintegrin rhodostomin to disturb the interactions between fibronectin and cell surface integrins. Furthermore, we established several stable transfectants expressing fibronectin antisense RNA to examine the role of fibronectin in branching morphogenesis directly.

RESULTS

Rhodostomin inhibited the formation of branching tubules. The transfectants expressing fibronectin antisense RNA exhibited relatively lower levels of synthesized fibronectin and markedly diminished growth rates of branching tubules than the control clone. An inhibition of branching morphogenesis induced by the overexpression of fibronectin antisense RNA was manifested by the decrease in cell growth rates and cell migration.

CONCLUSION

These results indicate that the deposition of fibronectin underlying the tubule-lining epithelium serves to enhance cell proliferation and migration, and hence facilitates the branching tubulogenesis of MDCK cells.

Transient apoptosis elicited by insulin in serum-starved glioma cells involves Fas/Fas-L and Bcl-2

The expression of fas gene in glioma cells varies with growth stage. When insulin-elicited transient apoptosis of glioma cells was in progress, the expression of fas gene increased at both transcriptional and translational levels. In contrast, the expression of fas-L gene in glioma cells remained constant. Apoptosis occurred in the cells having high level of surface Fas protein. When the expression of Fas-L in U-373MG cells was suppressed by ribozyme, the insulin-elicited transient apoptosis vanished. Overexpression of Bcl-2 in U-373MG cells did not alter significantly the cell cycle progression and the expression of fas gene. However, these cells were resistant to insulin-trigged death. Therefore, insulin-elicited apoptosis involved Fas-related death signal, and which could be prevented by the protective effect of Bcl-2.

Age effect of type I collagen on morphogenesis of Mardin-Darby canine kidney cells

BACKGROUND

Mardin-Darby canine kidney (MDCK) cells cultured in hydrated collagen gels develop simple epithelial cysts or branching tubules, depending on the presence of hepatocyte growth factor (HGF). Constituents of extracellular matrix can modulate the morphogenesis of MDCK cells. Collagen is one of the few well-defined structural entities that display gross structural changes with aging. This study was conducted to delineate the effects of age-induced changes of collagen on the morphogenesis of MDCK cells cultured in collagen gel.

METHODS

We employed Y224 and MDCK clone II 3B5 cells to study cystogenesis and branching tubulogenesis, respectively. Cells were cultured in three-dimensional collagen gels prepared from 1-, 4-, 8-, and 16-month-old rat tail tendons, and their capacity to develop cysts or branching tubules was assessed. We also analyzed the compositions and physical structures of collagen of various ages.

RESULTS

Y224 cells developed generally larger spherical cysts in collagen gels prepared from rats that were more than four months old. The ratio of apoptosis of cells cultured in one-month-old collagen gel was markedly higher than in the gel of older ages. The results were consistent with the observations that collagen gel overlay-induced apoptosis of Y224 cells in one-month-old collagen was higher than that in older collagen. On the other hand, 3B5 cells exhibited a remarkable scattering morphology when cultured in one- or four-month-old collagen gel with HGF. In contrast, 3B5 cells exhibited more intercellular adhesion and were organized into branching tubule structures only in the collagen gel that was more than eight months old. The differences in morphogenesis could be explained by the observations that collagen of younger ages exerted markedly higher HGF-triggered migration capability than collagen of older ages.

CONCLUSIONS

Age-related alterations in collagen influence epithelial cell morphogenesis via regulation of cell apoptosis, proliferation, and/or motility.

Preferential reduction of Na+/K+ ATPase alpha3 by 17beta-estradiol influences contraction frequency in rat uteri

One beta1 and two alpha (alpha1 and alpha3) isoforms of Na+/K+-ATPase exist in rat uteri. Previous immunocytochemistry studies have suggested that the alpha3 isoform may be involved in calcium regulation indirectly. Estrogens are known to both modulate Na+/K+-ATPase activities in non-uterine tissues and suppress spontaneous uterine contractions in rats. Thus the purpose of this study was to examine the correlation between estrogens-modulated uterine contraction and the expression of Na+/K+-ATPase alpha3 isoform in rats. After 1-, 2-, and 4- day treatments with 17beta-estradiol (E2, 5 microg/ml/kg, s.c., daily), the diameter of uterine horn was measured. The contraction force of uterine strips was measured by standard muscle bath apparatus. The protein abundance and enzyme activity of Na+/K+-ATPase in rat uteri were measured by Western blot analysis and ATPase assay, respectively. One day of E2 decreased both contraction frequency and alpha3-protein expression without the change in uterine diameter, enzyme activity or other isoforms. Two days of E2 reduced contraction frequency, the enzyme activity, as well as alpha3- and beta1- protein abundance but increased alpha1-protein and uterine diameter. Four days of E2 elicited similar effects as two days of E2, but did not affect alpha1-protein abundance. In conclusion, E2 elicits differential effects on isoform expression. After 1-day treatment with 17beta-estradiol, the decrease in the expression of alpha3 and beta1 without a change in Na+/K+-ATPase activity suggests that some isoform other than beta1 exist in rat uteri. The positive correlation between the reduction of alpha3-and the decrease of contraction frequency suggests the involvement of alpha3 isoform in uterine oscillation.

Involvement of focal adhesion kinase in hepatocyte growth factor-induced scatter of Madin-Darby canine kidney cells

Focal adhesion kinase (FAK) has been implicated to play a critical role in integrin-mediated control of cell behavior. However, it is unclear whether FAK also participates in the regulation of growth factor-elicited cellular functions. In this study, we have demonstrated that although overexpression of FAK in Madin-Dardy canine kidney cells did not alter their growth property or ability to form tubules within collagen gel upon hepatocyte growth factor (HGF) stimulation, it apparently enhanced HGF-induced cell scattering. This enhancement was largely because of an increase in the third phase (i.e. cell migration) of cell scattering rather than the first two phases (i.e. cell spreading and cell-cell dissociation). Conversely, the expression of FAK-related nonkinase significantly ( approximately 60%) inhibited HGF-induced cell migration. Moreover, we have found that the effect of FAK on promoting HGF-induced cell motility was greatly dependent on cell-matrix interactions. We showed that HGF treatment selectively increased the expression of integrins alpha(2) and, to a lesser extent, alpha(3) in Madin-Dardy canine kidney cells and that a monoclonal antibody against integrin alpha(2) efficiently blocked HGF-enhanced cell migration on collagen. In our efforts to determine the mechanism by which FAK promotes HGF-induced cell migration, we found that FAK mutants deficient in phosphatidylinositol 3-kinase or p130(Cas) binding failed to promote HGF-induced cell migration. Interestingly, cells expressing a FAK mutant defective in Grb2 binding exhibited a rate of migration approximately 50% lower than that of cells expressing wild type FAK in response to HGF stimulation. Taken together, our results suggest a link between HGF-increased integrin expression, FAK activation, and enhanced cell motility and implicate a role for FAK in the facilitation of growth factor-induced cell motility.

Reduced Pax2 gene dosage increases apoptosis and slows the progression of renal cystic disease

The murine cpk mouse develops a rapid-onset polycystic kidney disease (PKD) with many similarities to human PKD. During kidney development, the transcription factor Pax2 is required for the specification and differentiation of the renal epithelium. In humans, Pax2 is also expressed in juvenile cystic kidneys where it correlates with cell proliferation. In this report, Pax2 expression is demonstrated in the cystic epithelium of the mouse cpk kidneys. To assess the role of Pax2 during the development of polycystic kidney disease, the progression of renal cysts was examined in cpk mutants carrying one or two alleles of Pax2. Reduced Pax2 gene dosage resulted in a significant inhibition of renal cyst growth while maintaining more normal renal structures. The inhibition of cyst growth was not due to reduced proliferation of the cystic epithelium, rather to increased cell death in the Pax2 heterozygotes. Increased apoptosis with reduced Pax2 gene dosage was also observed in normal developing kidneys. Thus, increased cell death is an integral part of the Pax2 heterozygous phenotype and may be the underlying cause of Pax gene haploinsufficiency. That the cystic epithelium requires Pax2 for continued expansion underscores the embryonic nature of the renal cystic cells and may provide new insights toward growth suppression strategies.

Suppression of ultraviolet irradiation-induced apoptosis by overexpression of focal adhesion kinase in Madin-Darby canine kidney cells

Focal adhesion kinase (FAK) has been implicated to play a role in suppression of apoptosis. In this study, we have demonstrated that UV irradiation induced cleavage of FAK and two of its interacting proteins Src and p130(Cas) in Madin-Darby canine kidney cells, concomitant with an increase in cell death. The cleavage of these proteins upon UV irradiation was completely inhibited by ZVAD-FMK, a broad range inhibitor of caspases, and apparently delayed by Bcl2 overexpression. To examine if FAK plays a role in suppressing UV-induced apoptosis, stable Madin-Darby canine kidney cell lines overexpressing FAK were established. Our results showed that a marked (30-40%) increase in cell survival upon UV irradiation was achieved by this strategy. In our efforts to determine the mechanism by which FAK transduces survival signals to the downstream, we found that a FAK mutant deficient in binding to phosphatidylinositol 3-kinase failed to promote cell survival. Moreover, the expression of the Src homology 3 domain of p130(Cas), which competed with endogenous p130(Cas) for FAK binding, abrogated the FAK-promoted cell survival. Together, these results suggest that the integrity of FAK and its binding to phosphatidylinositol 3-kinase and p130(Cas) are required for FAK to exert its antiapoptotic function.

Na,K-ATPase in lens epithelia from patients with senile cataracts

Sodium-potassium-adenosine triphosphatase (Na,K-ATPase) has long been recognized for its role in regulating electrolyte concentrations in the lens, within which the electrolyte balance is vital to lens transparency. In this study, we compared the abundance of the alpha-subunit of Na,K-ATPase in lens epithelia of patients with senile cataracts, in order to examine the role of this enzyme in various types of lens opacity. Human lens epithelia were collected from 27 patients with senile cataracts who had undergone phacoemulsification. The type and the severity of lens opacity were graded and scored according to the Lens Opacities Classification System II. The mean age of the patients was 67.5 years (range, 46-80 yr). Abundance of the Na,K-ATPase alpha-subunit peptide in the lens epithelium was quantified by means of Western immunoblotting. Immunoblotting revealed that the amount of Na,K-ATPase alpha-subunit tended to decrease with increased cataract severity. In hypermature cataracts, the Na,K-ATPase alpha-subunit was barely detectable. The amount of alpha-subunit of Na,K-ATPase was inversely correlated with the overall severity of cataract (r = -0.64, p = 0.002). However, the inverse correlation was significant only in the cortical region (p = 0.027). As the cortex is located adjacent to the lens epithelium, it is directly affected by the loss of function of Na,K-ATPase in the epithelium. Such loss could result in water accumulation, vesicles, water clefts, Morgagnian globule formation, and Morgagnian cataract.

Role of fibronectin deposition in cystogenesis of Madin-Darby canine kidney cells

BACKGROUND

Madin-Darby canine kidney (MDCK) cells cultured within collagen I gel exhibit clonal growth and form spherical multicellular cysts. The cyst-lining epithelial cells are polarized with the basolateral surface in contact with the collagen gel and the apical surface facing the lumen. To understand whether MDCK cysts construct the basal lamina, we characterized the composition of the extracellular matrix deposited by MDCK cysts. The cyst-lining cells produced an apparently incomplete basal lamina containing a discontinuous laminin substratum. In addition, the basal cell surface of the cyst was surrounded by a thick layer of fibronectin. This study was conducted to delineate the role of fibronectin deposition in cystogenesis.

METHODS

MDCK cells cultured in collagen gel were employed. We first used Arg-Gly-Asp (RGD) peptides containing disintegrin rhodostomin to disturb the interaction between fibronectin and the cell surface integrin. We then established several stable transfectants expressing the fibronectin antisense RNA and with which to directly examine the role of fibronectin in cystogenesis.

RESULTS

Rhodostomin markedly decreased the growth rates of the MDCK cyst, suggesting the importance of a normal interaction between fibronectin and integrins. The stable transfectants overexpressing the fibronectin antisense RNA exhibited relatively lower levels of fibronectin and markedly lower cyst growth rates than the control clone. The lower growth rate was correlated with an increase in collagen gel-induced apoptosis.

CONCLUSIONS

The results indicate that the deposition of fibronectin underlying the cyst-lining epithelium serves to prevent apoptosis induced by three-dimensional collagen gel cultures, and hence facilitates cyst growth of MDCK cells.

Bcl-2 overexpression prevents apoptosis-induced Madin-Darby canine kidney simple epithelial cyst formation

BACKGROUND

Madin-Darby canine kidney (MDCK) cells develop into simple epithelial cell cysts when cultured in type I collagen gel. We found that MDCK cells initially grow into multilayer cell aggregates and subsequently develop central lumen that contain apoptotic cells. We hypothesized that apoptosis might be essential for the formation of MDCK cysts.

METHODS

Using MDCK cells cultured in collagen gel as the experimental model, we investigated how renal cells organize to form cysts. To delineate the role of apoptosis in the process of cyst formation, MDCK cells were transfected with the bcl-2 gene. Characterization of apoptosis was studied by morphological and biochemical methods.

RESULTS

Bcl-2 overexpression conferred resistance to apoptosis. Cultured in collagen gel, Bcl-2 transfectants rarely formed a simple epithelial cyst, but instead remained as a multilayer cell aggregate containing central or multiple lumens, or even developing into branching structures.

CONCLUSIONS

Because Bcl-2 overexpression averts cyst cavitation, these data clearly indicate that apoptosis is an essential initial event for renal cyst formation.

Ethyl isopropylamiloride downregulates Na,K-ATPase gene expression which confers cytotoxicity in primary proximal tubule cell cultures

Our original attempt was to examine whether inhibition of Na/H exchange in proximal tubule would affect the expression of basolateral membrane protein Na,K-ATPase. Three amiloride analogues were tested within the range of 10(-6) M to 10(-4) M in primary cultures of proximal tubule cells. Only ethylisopropyl amiloride (EIPA) dose-dependently downregulated Na,K-ATPase activity in cultured proximal tubule cells. The time course study revealed that EIPA (10(-4) M) significantly decreased Na,K-ATPase alpha- and alpha-mRNA abundance within 4 hr and suppressed Na,K-ATPase alpha- and beta-mRNA levels by 76.3 +/- 4.5% and 85.5 +/- 5.8%, respectively, within 24 hr. The decrease in Na,K-ATPase mRNA was followed by a decrease in Na,K-ATPase activity by 22.5 +/- 10.8% and 48.8 +/- 5.9% within 12 and 24 hr, respectively, which could be reflected by a coordinate decrease in levels of both alpha- and mature beta-protein. The cell viability was not affected until 20 hr of EIPA treatment, when an increase in LDH release and cell detachment was observed. Because EIPA rapidly decreased intracellular pH (pHi) to 6.7 within 2 hr and raising pHi to 6.6 by metabolic acidosis could not elicit changes in Na,K-ATPase activity, EIPA-induced downregulation of Na,K-ATPase should not be mediated through H+. In view of the time course of EIPA effects on Na,K-ATPase subunit mRNA, protein, activity and cell toxicity, the cytotoxic effect is likely resulted from a decrease in Na,K-ATPase activity. Take together, we conclude that EIPA induces downregulation of Na,K-ATPase expression via both pre- and post-translational mechanisms, which confers cytotoxic effects on proximal tubule cells.

Tyrosine phosphorylation of focal adhesion kinase stimulated by hepatocyte growth factor leads to mitogen-activated protein kinase activation

Focal adhesion kinase (FAK) is a cytoplasmic tyrosine kinase involved in integrin-mediated signal transduction pathway. In this report, we describe that the treatment of hepatocyte growth factor (HGF) stimulates a significant increase in the tyrosine phosphorylation of FAK in human embryonic kidney 293 cells. This stimulation is independent of cell adhesion or the integrity of the actin cytoskeleton, suggesting potentially different mechanisms by which the HGF receptors and integrins regulate the tyrosine phosphorylation of FAK. Our results also suggest that the activation of Src upon HGF stimulation is likely to be one, if not the only, of the mechanisms responsible for the HGF-induced tyrosine phosphorylation of FAK. Furthermore, we showed that a mutation in the Grb2 binding site Tyr-925 of FAK partially abolishes its increase in HGF-induced phosphorylation. Finally, we demonstrated that HGF stimulates the association of FAK with Grb2 in vitro and in intact cells and provided evidence that FAK might contribute to the activation of mitogen-activated protein kinase through Ras in HGF signaling by functioning as an adapter molecule.

Collagen gel overlay induces apoptosis of polarized cells in cultures: disoriented cell death

In this study, we attempted to investigate the response of polarized cells to inappropriate interaction with the extracellular matrix. Cell lines of epithelial [Madin-Darby canine kidney (MDCK) and LLC-PK1], endothelial [bovine aortic endothelial cells (BAEC)], and mesenchymal (ESK-4 and NIH/3T3) origins were employed. With collagen gel overlay, MDCK cells underwent membrane remodeling and gradually developed lumen formation within 24 h. Apoptosis could also be observed following cell remodeling. The ratio of apoptosis was enhanced from 12.1 +/- 2.4% within 24 h to 58.4 +/- 9.8% at day 3, and finally the monolayer was disintegrated. Collagen gel overlay-induced apoptosis was not a result of physical stress, since agarose gel overlay did not induce any morphological alterations. All epithelial and endothelial cells examined developed apoptosis in response to collagen overlay. In contrast, collagen overlay did not affect growth of fibroblasts at all, although their growth under agarose gel was slightly hindered due to physical stress. Collagen overlay-induced apoptosis seems to be a unique phenomenon for polarized cells and thus is defined as "disoriented cell death." Furthermore, anti-alpha2-integrin antibody could abolish collagen overlay-induced morphological changes and apoptosis in MDCK cells, indicating that signals through alpha2-integrin on the apical membrane are required for disoriented cell death. Finally, Bcl-2 overexpression prolonged survival of MDCK cells in response to collagen overlay, but these cells eventually developed apoptosis due to downregulation of Bcl-2 protein. These findings indicate that inappropriate cell-matrix interaction results in apoptosis, which may account for cell death mechanisms during developmental processes or under pathological conditions.

The RET-glial cell-derived neurotrophic factor (GDNF) pathway stimulates migration and chemoattraction of epithelial cells

Embryonic development requires cell migration in response to positional cues. Yet, how groups of cells recognize and translate positional information into morphogenetic movement remains poorly understood. In the developing kidney, the ureteric bud epithelium grows from the nephric duct towards a group of posterior intermediate mesodermal cells, the metanephric mesenchyme, and induces the formation of the adult kidney. The secreted protein GDNF and its receptor RET are required for ureteric bud outgrowth and subsequent branching. However, it is unclear whether the GDNF-RET pathway regulates cell migration, proliferation, survival, or chemotaxis. In this report, we have used the MDCK renal epithelial cell line to show that activation of the RET pathway results in increased cell motility, dissociation of cell adhesion, and the migration towards a localized source of GDNF. Cellular responses to RET activation include the formation of lamellipodia, filopodia, and reorganization of the actin cytoskeleton. These data demonstrate that GDNF is a chemoattractant for RET-expressing epithelial cells and thus account for the developmental defects observed in RET and GDNF mutant mice. Furthermore, the RET-transfected MDCK cells described in this report are a promising model for delineating RET signaling pathways in the renal epithelial cell lineage.

Inducible expression of bcl-2 by the lac operator/repressor system in MDCK cells

The lac operator/repressor-inducible system was utilized to dissect the biological consequences of human bcl-2 gene expression in Madin-Darby canine kidney (MDCK) cells. Cells were made transgenic for a constitutively expressed lacI gene, encoding lac repressor, and the bcl-2 gene that had been inserted downstream of a simian virus 40 (SV40) promoter containing the lac operator sequence. The expression of the bcl-2 gene could therefore be repressed to basal level by binding of lac repressor to the lac operator sequence in proximity to this SV40 regulatory region and be specifically activated by administration of the lactose analog isopropyl-beta-D-thiogalactoside (IPTG). We showed that expression of bcl-2 gene could be induced by 0.01 mM IPTG, and the maximal induction was obtained at 1 mM. With the treatment of IPTG, the Bcl-2 protein could be induced within 6 h. Moreover, the IPTG-inducible expression of Bcl-2 protein is a reversible process. Finally, functional assays revealed that IPTG-induced expression of bcl-2 gene conferred partial or complete resistance to homeless cell death or confluent cell death, respectively. The inducible expression system should be particularly useful for dissecting the effect of bcl-2 in phenotypic or morphological changes of MDCK cells.

Perturbation of platelet adhesion to endothelial cells by plasminogen activation in vitro

To investigate whether the endothelium-platelet interactions may be altered by plasminogen activation, cultured human umbilical vein endothelial cells (ECs) were treated with tissue-type plasminogen activator (t-PA) in the presence of plasminogen, and platelet adhesion to ECs was subsequently measured by using a tapered flow chamber. Our results demonstrated that platelets adhered more readily to t-PA treated EC monolayer than to the control monolayer at all shear stress levels tested. This phenomenon was treatment time-dependent and dose-dependent, and it could be blocked by adding plasmin inhibitors, such as epsilon-amino caproic acid and aprotinin. Adherent platelets on t-PA treated EC monolayer underwent more severe shape change than those on the control monolayer. While the extracellular matrix directly treated with t-PA attracted less platelets than the control matrix did, platelet adhesion to the matrix that was produced by t-PA-treated ECs was unaltered. These data suggest that t-PA treatment on ECs compromised antiplatelet-adhesion capability on their apical surface without altering the reactivity of their extracellular matrix towards platelets.

Thyroid hormone upregulates Na,K-ATPase alpha and beta mRNA in primary cultures of proximal tubule cells

In vivo studies have demonstrated that thyroid hormone regulates the activity of Na,K-ATPase in the mammalian kidney. However, it is still unclear whether upregulation of Na,K-ATPase by thyroid hormone is mediated through the direct action on renal tubule cells or through other mediators, such as an increase in glomerular filtration rate. Using primary cultures of rabbit renal proximal tubule cells, studies were undertaken to elucidate this problem. We found that Na,K-ATPase activity was increased by 26 +/- 8%, 30 +/- 9%, 39 +/- 9% after 24-h treatment with T3 of 10(-11), 10(-9), 10(-7) M, respectively. We further demonstrated that 24-h incubation of T3 (10(-7) M) enhanced alpha- and beta-protein abundance by 44 +/- 29% and 31 +/- 16%, and alpha- and beta-mRNA levels by 84 +/- 27% and 65 +/- 11%, respectively. The time course studies revealed that the significant increase in Na,K-ATPase activity, alpha- and beta-protein and mRNA abundance didn't appear until 24-h of T3 treatment. Our data indicate that thyroid hormone directly upregulates Na,K-ATPase in proximal tubule cells via a pretranslational mechanism.

Role of apoptosis in growth and differentiation of proximal tubule cells in primary cultures

In this study, we assessed the profile of cell proliferation, Na,K-ATPase activity and apoptosis in primary cultures of proximal tubule cells. Freshly isolated proximal tubules exhibited apoptosis very early in culture: floated cells within 6 hr; attached tubule cells within 20 hr. The onset of apoptosis in either attached or floated proximal tubules was accompanied by a decline of Na,K-ATPase activity, indicating a close relationship between apoptosis and dedifferentiation. The ratio of apoptosis was highest at the lag phase and lowest at the rapid growth phase, reflecting an inverse relationship between mitogenesis and apoptosis. Our data indicate that apoptosis is involved in the growth and early downregulation of Na,K-ATPase activity in primary cultures of proximal tubule cells.

Platelet adhesion following the administration of tissue-type plasminogen activator and its reversal by vitamin E in rats

Thrombolytic therapy is known to induce platelet-related side effects. We used a parallel-plate flow chamber, which was connected to the femoral artery of the rat, to measure platelet adhesion ex vivo. A collagen-coated arterioarterial shunt between two carotid arteries was used to measure shunt patency duration as an index of antithrombotic efficacy. Tissue-type plasminogen activator (t-PA), vitamin E, and the combination of these two were intravenously administered for 60 min. Measurements were performed before drug administration, and at 30, 60, 120 min after the initiation of drug infusion. Our results indicated that (1) treatments with t-PA or t-PA/vitamin E prolonged the time to shunt occlusion at 30 and 60 min; (2) t-PA enhanced platelet adhesion at 60 and 120 min; (3) vitamin E tended to reduce platelet adhesion; (4) t-PA/vitamin E reduced the t-PA-enhanced platelet adhesion; (5) at the high-density area of platelet adhesion under t-PA treatment, the adherent platelets demonstrated severe morphological changes which could be blocked by vitamin E. These data suggest that t-PA may enhance platelet adhesion in rats and that this adverse effect can be suppressed by co-administration of vitamin E.

Butyrate and TGF-beta downregulate Na,K-ATPase expression in cultured proximal tubule cells

Attempts were made to examine the effect of growth inhibitors on regulation of Na,K-ATPase in primary cultures of renal proximal tubule cells. We observed that both TGF-beta and butyrate induced dose dependent decrease of Na,K-ATPase activity. The time course studies showed that the effect of TGF-beta preceded the effect of butyrate on inhibition of Na,K-ATPase activity. Both butyrate- and TGF-beta-induced inhibition of this enzyme were in general mediated by transcriptional decreases of alpha and beta mRNA and therefore also protein abundance. Like its effect on Na,K-ATPase activity, TGF-beta compared to butyrate induced much earlier decline in Na,K-ATPase alpha and beta mRNA and protein abundance. Butyrate did not affect gene expression of TGF-beta and anti-TGF-beta antibody had no effect on butyrate-induced inhibition of DNA synthesis. Obviously, both butyrate and TGF-beta can inhibit the expression of Na,K-ATPase alpha and beta mRNA, but TGF-beta does not mediate butyrate's effect.

Development of a potent thrombin receptor ligand

The N-terminal thrombin receptor peptide H-Ser-Phe-Leu-Leu-Arg-Asn-Pro-Asn-Asp-Lys-Tyr-Glu-Pro-Phe-OH (1) fully activates the thrombin receptor with an EC50 of 10 microM. Structural features in the tetradecapeptide which are responsible for receptor activation have been elucidated. Agonist potency has been enhanced 1000-fold with the design of the shortened peptide H-Ala-Phe(p-F)-Arg-Cha-HArg-Tyr-NH2 (56). This analog exhibits an EC50 of 0.01 microM and is the most potent agonist for receptor activation reported to date. The monoiodinated derivative H-Ala-Phe(p-F)-Arg-Cha-HArg-Tyr(3-I)-NH2 (59) exhibits an EC50 of 0.03 microM, a level sufficient for development of a radioligand.

Thyroid hormone upregulates gene expression, synthesis and release of pro-epidermal growth factor in adult rat kidney

Attempts were made to elucidate whether thyroid hormone upregulates renal pro-epidermal growth factor (pro-EGF) gene expression, biosynthesis and release in adult rats which were rendered hypothyroid. Predominantly pro-EGF was detected in renal cortex, whereas pro-EGF and its degraded species were found in urine. We demonstrated that T3 increased pro-EGF levels in renal cortex to 2.2 +/- 0.17, 2.37 +/- 0.19, 2.73 +/- 0.25, and 3.10 +/- 0.45 fold within day 1, 2, 4 and 8, respectively following treatment. Immunoreactive EGF, assessed by immunohistochemical methods, was confined in the distal convoluted tubule and thick ascending limb of Henle. T3 markedly enhanced the density of irEGF in these nephrons. T3 augmented the concentration of urinary irEGF to 2.1, 2.2, 2.8 and 3.6 fold within day 1, 2, 4 and 8 and the abundance of urine pro-EGF to 2.53 +/- 1.39, 3.8 +/- 0.70, 3.59 +/- 1.48 fold within day 1, 2, 4, respectively. Moreover, we employed reverse transcriptase/polymerase chain reaction method to analyze relative abundance of pro-EGF mRNA in kidneys of various thyroid states and found T3 markedly increased pro-EGF mRNA levels after treatment of 1, 2 and 4 days. These results indicated that thyroid hormone augmented the gene expression, biosynthesis and excretion of pro-EGF in adult rat kidney.

Glucocorticoid upregulates Na-K-ATPase alpha- and beta-mRNA via an indirect mechanism in proximal tubule cell primary cultures

Adrenalectomy leads to the decline in the levels of renal Na-K-adenosinetriphosphatase (Na-K-ATPase) alpha- and beta-subunit protein and mRNA. Both alpha- and beta-mRNA, however, return to the control level within 1 h after corticosterone administration. Whether or not glucocorticoid acts directly on a specific segment of nephron to upregulate Na-K-ATPase has not been determined. Studies were undertaken in an attempt to elucidate this problem. Using primary cultures of renal proximal tubules, we found that 24-h treatment with dexamethasone augmented Na-K-ATPase activity and induced coordinate increase of alpha- and beta-protein and mRNA abundance dependent on the doses in the range of 10(-8) to 10(-6) M. We further demonstrated that 24-h incubation of dexamethasone (10(-7) M) enhanced Na-K-ATPase activity by 58 +/- 14%, alpha- and beta-protein abundance by 70 +/- 18 and 51 +/- 10%, and alpha- and beta-mRNA levels by 87 +/- 12 and 62 +/- 11%, respectively. The time course studies revealed that significant increase of Na-K-ATPase activity and alpha and beta-protein abundance was reached within 4 hr of dexamethasone treatment. Pretreatment of cultured proximal tubule cells with cycloheximide (20 micrograms/ml) completely inhibited dexamethasone-induced increase of Na-K-ATPase alpha- and beta-mRNA. Our results indicate that dexamethasone upregulates Na-K-ATPase in proximal tubule cells via pretranslational mechanisms, which may be mediated by proteins.

Metabolic substrates alter attachment and differentiated functions of proximal tubule cell culture

Proximal tubules cultured in vitro gradually lose their differentiated functions. Because standard culture media lacks several substrates important for renal proximal tubule oxidative metabolism, whether a mixture of substrates including butyrate, alanine, and lactate (BAL) would modify growth and/or differentiated function of proximal tubular cells in culture was examined. Tubules cultured in media supplemented with 2 mM butyrate, alanine, and lactate exhibited enhanced attachment but did not exhibit an altered growth rate. Higher levels of phosphoenolpyruvate carboxykinase and leucine-amino peptidase were sustained, although these activities were still diminished in comparison with that in fresh tubules. Sodium-dependent glucose uptake and dome formation--other reflections of epithelial cell differentiated function--also were enhanced. These studies demonstrate that the substrates used to culture proximal tubules can modify both their attachment and their manifestation of differentiated function in culture.

An assessment of immunoreactive epidermal growth factor in urine of patients with urological diseases

To examine the excretion of urinary epidermal growth factor (EGF) in urological diseases and the relationship of EGF urine levels with transitional cell carcinoma (TCC), we measured the concentration of EGF by radioimmunoassay. The series comprised patients with active TCC (n = 52), others in tumor-free status (n = 29) and with non-neoplastic inflammatory diseases (n = 43), and normal controls (n = 50). Urinary EGF values were lower in patients with urological diseases of different etiologies than in normal controls (P < 0.005). Mean EGF levels of patients who had previous bladder tumor resection (n = 21) were not statistically different from normal controls (P = 0.2). For patients with active TCC, EGF urine levels showed a significant inverse relationship to increasing tumor grade (P = 0.02). In addition, subjects who had received nephrectomy for pelvic carcinoma (n = 8) showed significantly lower mean EGF values than those with intact kidneys (n = 21), irrespective of sex (P < 0.05). Immunostaining of EGF on non-neoplastic kidney (n = 9) revealed reactivity in the distal convoluted tubules and thick ascending limbs of Henle. Our results suggest that the kidney is the major source of urinary EGF. Its excretion in urine is decreased in both inflammatory and neoplastic diseases of the urinary tract. EGF may play an important part in the biological activity of TCC. Further study is indicated to investigate the monitoring of EGF urine levels as a marker of recurrence for EGF receptor-positive TCC.

Thyroid hormone specifically regulates skeletal muscle Na(+)-K(+)-ATPase alpha 2- and beta 2-isoforms

The purpose of this study was to determine the pattern of thyroid hormone (triiodothyronine, T3) regulation of the Na(+)-K(+)-adenosinetriphosphatase (Na(+)-K(+)-ATPase) alpha- and beta-subunit expression in skeletal muscle, which expresses alpha 1-, alpha 2-, beta 1-, and beta 2-subunits, and compare it with that seen in kidney, which expresses only alpha 1 and beta 1. Three steady states were studied: hypothyroid, euthyroid, and hyperthyroid (hypothyroids injected daily with 1 microgram T3/g body wt for 2-16 days). Protein and mRNA abundance, determined by Western and Northern analysis, were normalized to a constant amount of homogenate protein and total RNA, respectively. In skeletal muscle, there was no change in alpha 1- or beta 1-mRNA or protein levels in the transition from hypothyroid to hyperthyroid. However, alpha 2 was highly regulated; mRNA reached a new steady-state level of fivefold over hypothyroid by 8 days of T3 treatment and protein abundance increased threefold. In addition, beta 2-mRNA and protein were detected in skeletal muscle and were also highly regulated by T3; beta 2-mRNA increased nearly fourfold over hypothyroid level, and beta 2-protein abundance increased over twofold. In kidney in the transition from hypothyroid to hyperthyroid, there were coordinate 1.6-fold increases in both alpha 1- and beta 1-mRNA abundance that predicted the observed changes in alpha 1- and beta 1-protein levels and Na(+)-K(+)-ATPase activity.(ABSTRACT TRUNCATED AT 250 WORDS)

Reappraisal of the biological role of epidermal growth factor receptor in transitional cell carcinoma

Retrospective immunohistochemical and flow cytometric DNA analyses were performed on 56 cases of transitional cell carcinoma (TCC) to examine the biologic implications of epidermal growth factor receptor (EGFR) expression. A total of 28 (50%) cases were reactive for EGFR immunostaining. The receptor expression increased from 41.7 to 56.3% with tumor stage. There was a significant association between EGFR expression and tumor stage (p < 0.0005), but not tumor grade. The flow DNA content and the Ki-67 proliferating index had no relation to the status of EGFR (p = 1, respectively). For those receptor-positive tumors (n = 28), there was a significant association (p < 0.0001) between receptor expression and tumor proliferation. Interestingly, the DNA content was not correlated with EGFR expression (p = 0.69). We support the possible role of EGFR in cell proliferation and the potential significance for tumor growth in TCCs. However, the biology of TCC in half the cases could not be explained by this mechanism. The interaction between EGFR and DNA ploidy status necessitates further evaluation.

Physiologic rationale for multiple sodium pump isoforms. Differential regulation of alpha 1 vs alpha 2 by ionic stimuli

A number of important themes emerge from our compartmental analyses of Na,K-ATPase biosynthesis in response to ionic stimuli. The ubiquitous alpha 1 beta 1 type sodium pump evolved to generate and maintain transmembrane Na+ and K+ gradients, and there are cell-type specific mechanisms of increasing synthesis and decreasing degradation to control surface expression of this important "housekeeping" enzyme. Expression of alpha 2 beta-type sodium pumps may have evolved in cells designated as K+ storehouses to facilitate maintenance of extracellular K+ in the presence of K+ restriction. Finally, the specialized distribution of Na,K-ATPase (and related E1-E2 type pumps) along the renal epithelia allows for monitoring and fine control of extracellular K+ and Na+ (volume). Many interesting questions remain to be answered, and we now have the probes and techniques needed to answer them.

Low K+ increases Na(+)-K(+)-ATPase alpha- and beta-subunit mRNA and protein abundance in cultured renal proximal tubule cells

Studies from this laboratory demonstrate that LLC-PK1/Cl4 cells, a cultured renal cell line, respond to incubation in low-K+ medium by coordinately increasing abundance of both alpha- and beta-subunits of Na(+)-K(+)-ATPase but increase only beta- and not alpha-mRNA levels (Lescale-Matys et al. J. Biol. Chem. 265: 17935-17940, 1990) and that alpha-abundance is likely increased as a result of increased efficiency of alpha-mRNA translation (L. Lescale-Matys and A. A. McDonough. J. Cell Biol. 111: 311A, 1990). The aim of this report was to determine if nontransformed kidney cells would respond to low K+ in a similar manner. We incubated primary cultures of rat proximal tubule cells in low K+ (0.25 mM) for up to 24 h to address this aim. Na(+)-K(+)-ATPase activity, measured enzymatically, and abundance of alpha- and beta-subunits, measured by immunoblot, were increased significantly and coordinately by 8 h of low K+, and, by 24 h of low K+, these parameters were increased to 2.17 +/- 0.34 (activity), 2.03 +/- 0.21 (alpha), and 2.39 +/- 0.48 (beta)-fold over control. Pretranslationally, beta-mRNA, measured by Northern blot analysis, increased to 1.76 +/- 0.35 after 3 h of low K+ and to 3.4 +/- 0.75-fold over control after 24 h of low K+. The increase in alpha-mRNA was smaller and delayed compared with the beta-mRNA response, but it was sufficient to account for the observed increase in alpha-protein and Na(+)-K(+)-ATPase activity at steady state: alpha-mRNA increased to 1.27 +/- 0.09 after 6 h and to 1.91 +/- 0.41-fold over control after 24 h in low K+. We conclude that the accumulation of sodium pumps in cultured renal proximal tubule cells, unlike LLC-PK1 cells, can be accounted for by increases in both alpha- and beta-subunit mRNA levels.

Thyroid hormone induction of rat myocardial Na(+)-K(+)-ATPase: alpha 1-, alpha 2-, and beta 1-mRNA and -protein levels at steady state

In this study, we measured the time courses of change in Na(+)-K(+)-ATPase alpha 1-, alpha 2-, and beta 1-subunit mRNA and protein abundance in cardiac myocytes isolated from euthyroid, hypothyroid, and hyperthyroid (hypothyroids injected daily with 1 microgram T3/g body wt) rats. In hypothyroids, alpha 1-, alpha 2-, and beta 1-protein levels were decreased to 0.55, 0.42, and 0.57 of euthyroids, predicting the decrease in Na(+)-K(+)-ATPase activity to 0.53 of control. There was no change in these subunits' mRNA levels, indicating that the decreases in protein levels were not due to decreased subunit transcription rates. In hyperthyroids, the alpha 1-mRNA increased to a steady state of threefold over hypothyroid by 1 day of T3 treatment, and the alpha 1-protein levels increased to twofold over hypothyroid by 4 days of T3. alpha 2-mRNA increased to 5-fold over hypothyroid by 2 days, whereas the alpha 2-protein levels increased to 14-fold above hypothyroid by 4 days of T3. Beta 1-mRNA increased to 12-fold above hypothyroid by 1 day of T3 treatment, whereas beta 1-protein increased to only 2.5-fold over hypothyroid by 4 days of T3. The discoordinate changes in alpha 2- and beta 1-mRNA vs. protein can be reconciled with the hypothesis that beta 1 is rate limiting for assembly in eu- and hypothyroids, and favors assembly with alpha 1, while excess unassembled alpha 2 is degraded. In the hyperthyroids we predict beta 1 is not rate limiting and there is increased alpha 2 beta 1-assembly. We calculate that T3 decreases the alpha 1-to-alpha 2 ratio from 24:1 in hypothyroid to 3.4:1 in hyperthyroid cardiomyocytes.

Relationship between proliferation and glucose metabolism in primary cultures of rabbit proximal tubules

Primary cultures of rabbit proximal tubules, which revert to a glycolytic profile as reflected by increased activity of pyruvate kinase (PK) paralleled by increased glucose consumption and lactate formation, were utilized to explore the relationship between glycolytic metabolism and proliferation. Tubules placed in serum-free, hormonally defined Dulbecco's modified Eagle's medium with 5 mM glucose exhibited logarithmic growth beginning on day 3 in culture. The increase in PK activity lagged approximately 1 day behind, suggesting that the reversion to glycolysis is a consequence of rather than a prerequisite for cellular proliferation. Tubules cultured in 0.5 mM as contrasted with 25 mM glucose exhibited heightened proliferation reflected by an increase in protein content and cell number on day 5 in culture. The heightened proliferation was accompanied by increased PK activity. On day 9, after confluency had been achieved, no differences in protein content or PK activity were detected between tubules cultured in different glucose concentrations. These findings indicate that a low glucose concentration is mitogenic for renal proximal tubules and that the proliferative process in some fashion up-regulates the activity of the glycolytic enzyme PK. Furthermore, because accelerated growth proceeds in the presence of glucose restriction, the energy from glycolysis is not required for the proliferative process.

Ionic regulation of the biosynthesis of NaK-ATPase subunits

In this review we have summarized the work of ourselves and others on ionic and hormonal regulation of synthesis of the sodium pump. No one central theme emerges from this summary. Rather, it appears that abundance can be regulated pre-translationally or posttranslationally. As reviewed recently, regulation of the expression of the beta glycoprotein subunit, which has no described enzymatic function, can regulate holoenzyme expression. In the kidney this is exemplified in our studies in LLC-PK1 cells and proximal tubule cells where pre-translational regulation of beta expression is key to increasing holoenzyme abundance, and also exemplified in the hypothyroid renal cortex where regulation of beta protein abundance post-translationally appears to impact the abundance of enzymatically active NaK-ATPase. Future studies in the field of ionic regulation of NaK-ATPase must be directed at elucidating the signals that mediate the response, and at how these signals alter the NaK-ATPase biosynthetic pathway from expression of alpha and beta genes, through to turnover of the mature NaK-ATPase heterodimer.

Carbohydrate metabolism by primary cultures of rabbit proximal tubules

Renal proximal tubular epithelia were used to assess the factors responsible for the induction of glycolysis in cultured cells. Primary cultures of rabbit proximal tubules, which achieved confluency at 6 days, exhibited hormonal responsiveness and brush-border characteristics typical of proximal tubular cells. Beginning at day 4, these cultured cells exhibited increased glycolytic metabolism reflected by enhanced glucose uptake and lactate production, along with parallel increases in activity of the glycolytic enzymes, pyruvate kinase and lactate dehydrogenase. The gluconeogenic enzymes, phosphoenolpyruvate carboxykinase (PEPCK) and fructose-1,6-bisphosphatase (FDP), were downregulated, and the cultured cells exhibited lower oxygen consumption rates than fresh tubules. Cells grown on a rocker, to mitigate hypoxia, exhibited a metabolic and enzymatic profile similar to cells grown under still conditions. ATP levels in cultured cells were higher than in fresh tubules. Furthermore, pyruvate kinase activity was higher in cells grown in media containing 0.5 as contrasted with 25 mM glucose. The enhanced glycolytic metabolism exhibited by cultured proximal tubular cells appears to be a characteristic of proliferation and is not a response to hypoxia, the Pasteur effect, or environmental glucose.