Cloning and functional characterization of a rat urea transporter: expression in the brain.

A cDNA coding for a rat urea transporter is described. The 1242 bp open reading frame codes for a 414 amino acids protein with 77.0% and 60.7% identity with the human UT11 and the rat UT2, respectively. When expressed in Xenopus oocytes, the protein induces a 10-fold rise in urea permeability, inhibited by mercurial reagents and phloretin. The rUT11 mRNA is massively expressed in the brain.

Molecular and functional characterization of an amphibian urea transporter.

We report the characterization of a frog (Rana esculenta) urea transporter (fUT). The cloned cDNA is 1.4 kb long and contains a putative open reading frame of 1203 bp. In frog urinary bladder, the gene is expressed as two mRNAs of 4.3 and 1.6 kb. The fUT protein is 63.1 and 56.3% identical to rat UT-A2 and UT-B1, respectively. The internal duplication of UT-A2 and UT-B, as well as the double LP box urea transporter signature sequence were found in this amphibian urea transporter. When expressed in Xenopus oocytes, fUT induced a 10-fold increase in urea permeability, which was blocked by both phloretin and mercurial reagents. The fUT protein did not transport thiourea, but the fUT-mediated urea transport was strongly inhibited by this compound. Thus, this amphibian urea transporter displays transport characteristics in between those of UT-A2 and UT-B.

Sequence and functional expression of an amphibian water channel, FA-CHIP: a new member of the MIP family.

A new member of the family of water channel proteins (aquaporin-CHIP) related to the major intrinsic protein (MIP) family is described. The cDNA coding for this amphibian CHIP was cloned from frog (Rana esculenta) urinary bladder, a model for the kidney collecting duct, using a RT-PCR cloning strategy. The encoded protein, designated FA-CHIP (frog aquaporin-CHIP), shows 77.4%, 42.4% and 35.6% identity with the three proteins now referred to as the aquaporins of the MIP family, i.e., human CHIP28, WCH-CD and gamma-TIP, respectively. Xenopus leavis injected with FA-CHIP cRNA exhibited a marked increase of the osmotic water permeability.

Clinical implications of the serum level of CD23 in patients with undifferentiated nasopharyngeal carcinoma.

PURPOSE: In contrast with other carcinoma cells, cells from nude mice transplanted undifferentiated carcinoma of nasopharyngeal type (UCNT) release the soluble fragment of the CD23 antigen (sCD23). We sought to study the level of sCD23 in sera of untreated UCNT patients. PATIENTS AND METHODS: Pretherapeutic sera from 65 consecutive, locally advanced, initially nonmetastatic UCNT patients were assayed for sCD23. Patients were treated with a neoadjuvant chemotherapy/full-dose radiotherapy sequence. The mean follow-up duration is 50.5 months (range, 28 to 77). The Cox proportional hazards model was used to study the association between sCD23 levels and clinical signs and disease evolution. RESULTS: sCD23 levels showed an association with disease-free survival (DFS; P = .08) and overall survival (OVS; P = .08). Patients with sCD23 levels greater than a cutoff value of 0.6 ng/mL (greater cutoffs were found to be equally significant, but less sensitive), have a relative risk (RR) of relapse of 3.3 (95% confidence interval, 1.6 to 6.9; P = .002), and an RR of death of 2.9 (95% confidence interval, 1.2 to 7.3; P = .02), when taking other prognostic factors into account. CD23 does not correlate with either the response to treatment or the development of metastases, but appears to be related to local control (cutoff, 0.6 ng/mL; RR = 5.1 [95% confidence interval, 1.2 to 21.7]; P = .02). CONCLUSION: The serum level of sCD23 appears to be an independent prognostic factor for initially nonmetastatic, locally advanced UCNT patients, treated with chemotherapy and radiotherapy. Our data indicate an association between this marker and local relapses. Thus, a simple enzyme-linked immunoadsorbent assay (ELISA) could help to identify a high-risk group among nonmetastatic UCNT patients. CD23 could be a marker for two groups of UCNT tumors, with distinct biologic characteristics and clinical behaviors.

Leukemoid reaction, bone marrow invasion, fever of unknown origin, and metastatic pattern in the natural history of advanced undifferentiated carcinoma of nasopharyngeal type: a review of 255 consecutive cases.

PURPOSE: This study is an analysis of frequency and relationship regarding two undifferentiated carcinoma of nasopharyngeal type (UCNT)-associated paraneoplastic syndromes (PNS): leukemoid reaction (LR) and fever of unknown origin (FUO) with bone marrow invasion (BMI) and metastatic pattern. PATIENTS AND METHODS: A consecutive UCNT patient cohort (N = 255) with locally advanced (n = 142) or metastatic (n = 113) disease receiving chemotherapy alone or in combination with radiotherapy was studied. All patients had a complete baseline work-up that included bone marrow biopsy. RESULTS: UCNT has distinctive features among head and neck squamous cell cancers (HNSCC). These include early subclinical dissemination, with 70% of metastases appearing within 18 months of first symptoms. Metastases are common in bone (65% v 25% in HNSCC), liver (29% v 23%), and lung (18% v 84%), and BMI is observed in 25% of UCNT patients with metastases. Metastases likelihood is related to lymph node involvement, with 64% of patients with metastases having N3 disease. Involved lymph nodes in contrasted CT scans revealed hypodensity in 26% of UCNT patients versus 79% in patients with other HNSCC. Hypercalcemia was observed in one case. LR was identified in 41 patients (16%); in 26 of the 41 patients (64%) it was observed concomitant with N3 and/or metastatic disease. FUO was found in 23 patients (9%) and was associated in four instances with BMI and in 17 with LR (in four instances with both). Brain metastases or meningeal carcinomatosis were not observed despite the high rate of skull base compromise. Paraneoplastic signs were observed in 47 of 255 cases (18.5%) and were more frequent in patients with metastases. However, PNS were observed in 15 patients with negative metastases work-up. CONCLUSION: The PNS described could help in the diagnosis and follow-up of UCNT patients because they may be the first manifestation of the disease or may reappear with relapse. BMI is a frequent finding in patients with metastases and is unrelated to PNS.

The fate of human CD77+ germinal center B lymphocytes after rescue from apoptosis.

Germinal center (GC) B lymphocytes, defined by various criteria, have been shown to spontaneously undergo apoptosis in vitro unless they receive a positive signal. This rescue signal seems to be a multi-component process which involves not only the B cell receptor but also other cell surface receptors such as the CD40 antigen. In previous studies, we have shown that expression of the CD77 antigen is restricted to GC B lymphocytes and that CD77+ cells readily enter programmed cell death when cultured in vitro. In order to better characterize the CD77+ B lymphocytes, we have investigated the fate of these cells after rescue from apoptosis. Survival of CD77+ cells was achieved either with a combination of anti-CD40 mAb and IL4 (the CD40 system developed by Banchereau et al., (1991) Science 251, 70-72) or EBV infection. After 4 days of culture, similar phenotypic and functional changes of the CD77+ lymphocytes were observed in both systems: CD77 antigen was down-regulated, CD23 antigen which was originally negative became strongly expressed and the expression of CD38 and CD20 remained constant. Furthermore, large quantities of soluble CD23 were produced by the surviving cells. These results indicate that CD77 antigen is expressed by GC B cells which are highly susceptible to enter apoptosis but which are not doomed to die.

Cluster-based computational methods for mass univariate analyses of event-related brain potentials/fields: A simulation study.

BACKGROUND: In recent years, analyses of event related potentials/fields have moved from the selection of a few components and peaks to a mass-univariate approach in which the whole data space is analyzed. Such extensive testing increases the number of false positives and correction for multiple comparisons is needed. METHOD: Here we review all cluster-based correction for multiple comparison methods (cluster-height, cluster-size, cluster-mass, and threshold free cluster enhancement - TFCE), in conjunction with two computational approaches (permutation and bootstrap). RESULTS: Data driven Monte-Carlo simulations comparing two conditions within subjects (two sample Student's t-test) showed that, on average, all cluster-based methods using permutation or bootstrap alike control well the family-wise error rate (FWER), with a few caveats. CONCLUSIONS: (i) A minimum of 800 iterations are necessary to obtain stable results; (ii) below 50 trials, bootstrap methods are too conservative; (iii) for low critical family-wise error rates (e.g. p=1%), permutations can be too liberal; (iv) TFCE controls best the type 1 error rate with an attenuated extent parameter (i.e. power<1).

Different responses to acute or progressive osmolarity increases in the mIMCD3 cell line.

Cells from the kidney medulla are able to survive and function when exposed to high concentrations of NaCl and urea. In vitro, cultured epithelial cells from the kidney medulla are able to survive stronger acute hyperosmotic shocks when both solutes are present. However, in vivo, increases in osmolarity are not acute. In this study, we compared the survival of a murine renal epithelial cell line during acute or progressive (two step) adaptation to hypertonic NaCl and/or urea. Increasing osmolarity to 700 mOsm/l with NaCl or urea in a single step led to massive cell death ( 50% in 24 hours). However, genomic DNA of dying cells was not degraded, and electron microscopy revealed weak condensation of chromatin, absence of membrane blebbing, and no nuclear indentation. Pre-adaptation to permissive concentrations of NaCl (200 mOsm/l giving a final osmolarity of 500 mOsm/l) protected cells against subsequent increases in osmolarity, allowing adaptation to final osmolarities as high as 900 mOsm/l. In contrast, pre-adaptation to permissive concentrations of urea (200 mOsm/l) did not lead to enhanced cell survival after a subsequent 200 mOsm/l step. Cell death was as rapid as after an acute shock, but was more typical of apoptosis (genomic DNA laddering, strong chromatin condensation, nuclear indentation, and blebbing of the membrane giving rise to apoptotic bodies). Thus, acute hyperosmolarity induces cell death with essentially similar responses to NaCl and urea. In contrast, progressive adaptation of mIMCD3 cells to NaCl allows cell survival, whereas progressive adaptation to hyperosmotic urea triggers a cell death pathway different from the one triggered by acute hyperosmotic shocks.

A second nitrogen permease regulator in Saccharomyces cerevisiae.

We describe a Saccharomyces cerevisiae mutant affected in its urea and proline transport capacities, and a gene coding for a protein complementing this mutation. This protein is not membrane-embedded and contains two PEST sequences, often found in regulatory factors. The mRNA is not down-regulated under nitrogen catabolite repression, and is induced by urea and proline. In the mutant, the PUT4 mRNA encoding the proline permease is not affected, whereas the DUR3 mRNA, involved in urea active transport, is strongly increased. Our data suggest that this protein is a post-transcriptional regulator of nitrogen permeases.

Functional expression of the human CHIP28 water channel in a yeast secretory mutant.

The temperature-sensitive Saccharomyces cerevisiae mutant strain NY17, deficient in the secretory pathway (sec6-4 mutation), is used for the heterologous expression of the human CHIP28 water channel. After a heat-shock, the protein is present in partially purified post-golgi secretory vesicles. Immunodetection and water transport studies, directly made on the vesicles, showed that CHIP28 is highly expressed and active in the yeast membranes.

Molecular characterization of a new urea transporter in the human kidney.

A cDNA clone (HUT2) sharing 61.1% and 89.9% sequence identity with the human erythroid (HUT11) and the rabbit (UT2) urea transporters, respectively, was isolated by homology cloning from a human kidney library. HUT2 transcripts were restricted to the kidney and the HUT2 polypeptide was not immunoprecipitated with blood group Kidd-related antibodies (anti-Jk3) in coupled transcription-translation assays. Functional expression studies in Xenopus oocytes demonstrated that HUT2-mediated urea transport was not inhibited by p-chloromercuribenzene sulfonate (pCMBS) which, however, inhibited the urea flux mediated by HUT11. These findings demonstrate that at least two distinct urea transporters are present in human tissues. By in situ hybridization, the gene encoding HUT2 has been assigned to chromosome 18q12.1-q21-1, as found previously for the Kidd/urea transporter HUT11, suggesting that both genes evolved from duplication of a common ancestor.

Cytogenetic studies in three xenografted nasopharyngeal carcinomas.

Cytogenetics results of three xenografted nasopharyngeal carcinomas (NPC) are reported. One (C15) was almost diploid and had only an isochromosome 1q, trisomy 2, and loss of chromosome X. The two other tumors, C17 and C19, were hypodiploid and had complex karyotypes with some variations. Nonrandom structural abnormalities of chromosomes 1, 3, 8, and 17 were observed. A correlation between a del(17)(p11-12) observed in C17 and loss of both alleles of p53 recently shown in this tumor is emphasized.

Identification of microprocessor-dependent cancer cells allows screening for growth-sustaining micro-RNAs.

Micro-RNAs are deregulated in cancer cells, and some are either tumor suppressive or oncogenic. In addition, a link has been established between decreased expression of micro-RNAs and transformation, and several proteins of the RNA interference pathway have been shown to be haploinsufficient tumor suppressors. Oncogenic micro-RNAs (oncomiRs) could represent new therapeutic targets, and their identification is therefore crucial. However, structural and functional redundancy between micro-RNAs hampers approaches relying on individual micro-RNA inhibition. We reasoned that in cancer cells that depend on oncomiRs, impairing the micro-RNA pathway could lead to growth perturbation rather than increased tumorigenesis. Identifying such cells could allow functional analyses of individual micro-RNAs by complementation of the phenotypes observed upon global micro-RNA inhibition. Therefore, we developed episomal vectors coding for small hairpin RNAs targeting either Drosha or DGCR8, the two components of the microprocessor, the nuclear micro-RNA maturation complex. We identified cancer cell lines in which both vectors induced colony growth arrest. We then screened for individual micro-RNAs complementing this growth arrest, and identified miR-19a, miR-19b, miR-20a and miR-27b as major growth-sustaining micro-RNAs. However, the effect of miR-19a and miR-19b was only transient. In addition, embryonic stem cell-derived micro-RNAs with miR-20a seeds were much less efficient than miR-20a in sustaining cancer cell growth, a finding that contrasted with results obtained in stem cells. Finally, we showed that the tumor suppressor phosphatase and tensin homologue deleted on chromosome 10, a shared target of miR-19 and miR-20, was functionally involved in the growth arrest induced by microprocessor inhibition. We conclude that our approach allowed to identify microprocessor-dependent cancer cells, which could be used to screen for growth-sustaining micro-RNAs. This complementation screen unveiled functional differences between homologous micro-RNAs. Phenotypic characterization of the complemented cells will allow precise functional studies of these micro-RNAs.

[Urea transporters]. / Les transporteurs de l'urée.

Water and urea use different pathways to cross biological membranes: channels and carriers. Numerous water channels were cloned (aquaporins); only two urea transporters are characterized in mammalians (UT2 and UT11) with sequence homologies suggesting two different carriers. This was confirmed by different localizations: UT2 was only found in renal medulla and probably was the AVP-sensitive urea carrier while UT11 was found in testis, spleen, brain and kidney and represents the constitutive urea carrier described in red blood cell. UT2 hybridized two transcripts, 4.1 kb and 2.9 kb. The large transcript expression was regulated by low protein diet whereas the short transcript was regulated by hydratation conditions. The heterologous expression into Xenopus oocytes showed a large increase of the urea uptake (UT2 > UT11), inhibitable by phloretin for UT11 and UT2 and by pCMBS only for UT11. A saturable transport of thiourea was only observed into oocytes expressing UT11. Moreover, hUT11 is encoded by the kidd locus, but, Jk (a-b-) individuals, in the absence of this urea transporter did not present related pathology. Other carriers still have to be identified and characterized in different renal segments and other tissues.

Urea sensitizes mIMCD3 cells to heat shock-induced apoptosis: protection by NaCl.

Urea, with NaCl, constitutes the osmotic gradient that allows water reabsorption in mammalian kidneys. Because NaCl induces heat shock proteins, we tested the responses to heat shock of mIMCD3 cells adapted to permissive urea and/or NaCl concentrations. We found that heat-induced cell death was stronger after adaptation to 250 mM urea. This effect was reversible, dose dependent, and, interestingly, blunted by 125 mM NaCl. Moreover, we have shown that urea-adapted cells engaged in an apoptotic pathway upon heat shock, as shown by DNA laddering. This sensitization is not linked to a defect in the heat shock response, because the induction of HSP70 was similar in isotonic and urea-adapted cells. Moreover, it is not linked to the presence of urea inside cells, because washing urea away did not restore heat resistance and because applying urea and heat shock at the same time did not lead to heat sensitivity. Together, these results suggest that urea modifies the heat shock response, leading to facilitated apoptosis.

Molecular and functional study of AQY1 from Saccharomyces cerevisiae: role of the C-terminal domain.

The yeast YPR192w gene, which encodes a protein (Aqy1p) with strong homology to aquaporins (AQPs), was cloned from nine S. cerevisiae strains. The osmotic water permeability coefficient (Pf) of X. laevis oocytes expressing the gene cloned from the Sigma1278b strain (AQY1-1) was 5.7 times higher than the Pf of oocytes expressing the gene cloned from other strains (AQY1-2). Aqy1-1p, initially cloned without its C-terminus (Aqy1-1DeltaCp), mediated an approximately 3 times higher water permeability than the full-length protein. This corresponds to a 3-fold higher protein density in the oocyte plasma membrane, as shown by freeze-fracture electron microscopy. Pf measurements in yeast spheroplasts confirmed the presence of functional water channels in Sigma1278b and a pharmacological study indicated that this strain contains at least a second functional aquaporin.

Glycerol permeability of mutant aquaporin 1 and other AQP-MIP proteins: inhibition studies.

In a recent work, we showed that the aquaporins 1 (AQP1) are permeable to certain small solutes such as glycerol. Here, we have further investigated the permeation pathway of glycerol through human AQP1 (hAQP1) by the use of mutants (C189S, H180A, H209A) and inhibitors such as P-chloromercuribenzene sulphonate (pCMBS), CuSO4 or phloretin, in comparison with other AQP-MIP (where MIP denotes major intrinsic protein) proteins: hAQP2, plant water channel gammaTIP and bacterial glycerol permease facilitator, GlpF. Glycerol movements were measured in Xenopus laevis oocytes. Apparent glycerol permeability coefficients (P'gly) were calculated from the rates of oocyte swelling upon exposure to an isoosmotic medium containing an inwardly directed gradient of glycerol and from [3H]glycerol uptake measurements. Similar P'gly values were obtained for hAQP1 and hAQP2 6 to 8 times greater than control indicating that hAQP2 also transports glycerol. P'gly of hAQP2-injected oocytes was pCMBS and CuSO4 sensitive. In contrast, the P'gly value of gammaTIP was close to that of control, indicating that gammaTIP does not transport glycerol. The hAQP1-C189S, -H180A and -H209A mutants gave P'gly values similar to those obtained for wild hAQP1, indicating that these mutations did not affect glycerol movements. However, the H209A mutant has an osmotic water permeability coefficient (Pf) value decreased by 50%. The inhibitory effect pCMBS on P'gly was maintained for the 2 His mutants and, more interestingly, was also conserved for the C189S mutant. CuSO4 significantly inhibited P'gly of oocytes expressing hAQP1, hAQP1-C189S, -H180A, and -H209A mutants and had no effect on P'gly of GlpF-injected oocytes. Phloretin was shown to inhibit by around 80% the glycerol fluxes of wild and mutant hAQP1, hAQP2 and to fully inhibit glycerol uptake in GlpF-injected oocytes.

Massive reduction of urea transporters in remnant kidney and brain of uremic rats.

BACKGROUND: The facilitated urea transporters (UT), UT-A1, UT-A2, and UT-B1, are involved in intrarenal recycling of urea, an essential feature of the urinary concentrating mechanism, which is impaired in chronic renal failure (CRF). In this study, the expression of these UTs was examined in experimentally induced CRF. METHODS: The abundance of mRNA was measured by Northern analysis and that of corresponding proteins by Western blotting in rats one and five weeks after 5/6 nephrectomy (Nx). RESULTS: At five weeks, urine output was enhanced threefold with a concomitant decrease in urine osmolality. The marked rise in plasma urea concentration and fall in urinary urea concentration resulted in a 30-fold decrease in the urine/plasma (U/P) urea concentration ratio, while the U/P osmoles ratio fell only fourfold. A dramatic decrease in mRNA abundance for the three UTs was observed, bringing their level at five weeks to 1/10th or less of control values. Immunoblotting showed complete disappearance of the 97 and 117 kD bands of UT-A1, and considerable reduction of UT-A2 and UT-B1 in the renal medulla. Similar, but less intense, changes were observed at one-week post-Nx. In addition to the kidney, UT-B1 is also normally expressed in brain and testis. In the brain, its mRNA expression remained normal one-week post-Nx, but decreased to about 30% of normal at five-weeks post-Nx, whereas no change was seen in testis. CONCLUSIONS: (1) The decline in urinary concentrating ability seen in CRF is largely due to a major reduction of UTs involved in the process of urea concentration in the urine, while factors enabling the concentration of other solutes are less intensely affected. (2) The marked reduction of brain UT expression in CRF may be responsible for brain edema of dialysis disequilibrium syndrome observed in some patients after fast dialysis.