Claudins are major components of tight junctions and contribute to the epithelial-barrier function by restricting free diffusion of solutes through the paracellular pathway. We have mapped a new locus for recessive renal magnesium loss on chromosome 1p34.2 and have identified mutations in CLDN19, a member of the claudin multigene family, in patients affected by hypomagnesemia, renal failure, and severe ocular abnormalities. CLDN19 encodes the tight-junction protein claudin-19, and we demonstrate high expression of CLDN19 in renal tubules and the retina. The identified mutations interfere severely with either cell-membrane trafficking or the assembly of the claudin-19 protein. The identification of CLDN19 mutations in patients with chronic renal failure and severe visual impairment supports the fundamental role of claudin-19 for normal renal tubular function and undisturbed organization and development of the retina.
Background: The Piezo1 channel was recently identified as a genuine mechanosensor in mammalian cells. Results: Urothelial cells exhibited a Piezo1-dependent increase in cytosolic Ca 2ϩ concentrations in response to mechanical stretch stimuli, leading to ATP release. Conclusion: Piezo1 senses extension of the bladder urothelium, which is converted into an ATP signal. Significance: Inhibition of Piezo1 might provide a new treatment for bladder dysfunction.
Amino acid homeostasis depends on specific amino acid transport systems, many of which have been characterized at the molecular level. However, the classical System IMINO, defined as the Na ؉ -dependent proline transport activity that escapes inhibition by alanine, had not been identified at the molecular level. We report here the functional characteristics and tissue distribution of Sodium/Imino-acid Transporter 1 (SIT1), which exhibits the properties of classical System IMINO. SIT1, the product of the slc6a20 gene, is a member of the SLC6 Na ؉ -and Cl ؊ -dependent neurotransmitter transporter family whose function has remained unknown. When expressed in Xenopus oocytes, rat SIT1 mediated the uptake of imino acids such as proline (K 0.5 ϳ 0.2 mM) and pipecolate, as well as N-methylated amino acids (e.g. MeAIB, sarcosine). SIT1-mediated proline transport was pH-independent and insensitive to inhibition by alanine or lysine. Proline transport was Na ؉ -dependent, Cl ؊ -stimulated, and voltage-dependent. Li ؉ , but not H ؉ , could substitute for Na ؉ . Human SIT1 also functioned as a Na ؉ -dependent proline transporter. Rat SIT1 mRNA was expressed in epithelial cells of duodenum, jejunum, ileum, stomach, cecum, colon, and kidney proximal tubule S 3 segments. SIT1 mRNA was also expressed in the choroid plexus, microglia, and meninges of the brain and in the ovary. Previous reports have documented the marked urinary hyperexcretion of proline in newborn rodents and man. We found that SIT1 was dramatically up-regulated in the kidneys of 3-day-old mice, accounting for the maturation of proline reabsorption in the mouse. The human slc6a20 gene coding SIT1 is an appropriate target for investigation of hereditary forms of iminoaciduria in man.
Prostate cancer is a major health concern as it has the second highest incidence rate among cancers in men. Despite progress in tumor diagnostics and therapeutic approaches, prognosis for men with advanced disease remains poor. In this review we provide insight into the changes of the intermediary metabolism in normal prostate and prostate cancer. In contrast to normal cells, prostate cancer cells are reprogrammed for optimal energy-efficiency with a functional Krebs cycle and minimal apoptosis rates. A key element in this relationship is the uniquely high zinc level of normal prostate epithelial cells. Zinc is transported by the SLC30 and SLC39 families of zinc transporters. However, in prostate cancer the intracellular zinc content is remarkably reduced and expression levels of certain zinc transporters are altered. Here, we summarize the role of different zinc transporters in the development of prostate cancer.
Brown adipose tissue (BAT), a major site for mammalian nonshivering thermogenesis, could be a target for prevention and treatment of human obesity. Transient receptor potential vanilloid 2 (TRPV2), a Ca
2+-permeable non-selective cation channel, plays vital roles in the regulation of various cellular functions. Here, we show that TRPV2 is expressed in brown adipocytes and that mRNA levels of thermogenic genes are reduced in both cultured brown adipocytes and BAT from TRPV2 knockout (TRPV2KO) mice. The induction of thermogenic genes in response to b-adrenergic receptor stimulation is also decreased in TRPV2KO brown adipocytes and suppressed by reduced intracellular Ca 2+ concentrations in wild-type brown adipocytes. In addition, TRPV2KO mice have more white adipose tissue and larger brown adipocytes and show cold intolerance, and lower BAT temperature increases in response to b-adrenergic receptor stimulation. Furthermore, TRPV2KO mice have increased body weight and fat upon high-fat-diet treatment.Based on these findings, we conclude that TRPV2 has a role in BAT thermogenesis and could be a target for human obesity therapy.
Permanent isolated proximal renal tubular acidosis (pRTA) with ocular abnormalities is a systemic disease with isolated pRTA, short stature and ocular abnormalities. We identified a novel homozygous deletion of nucleotide 2,311 adenine in the kidney type Na+/HCO3- cotransporter (kNBC1) cDNA in a patient with permanent isolated pRTA. This mutation is predicted to result in a frame shift at codon 721 forming a stop codon after 29 amino acids anomalously transcribed from the SLC4A4 gene. Cosegregation of this mutation with the disease was supported by heterozygosity in the parents of the affected patient. The absence of this mutation in 156 alleles of 78 normal individuals indicates that this mutation is related to the disease and is not a common DNA sequence polymorphism. When injected into Xenopus oocytes, the mutant cRNA failed to induce electrogenic transport activity. In addition, immunofluorescence and Western blot analysis failed to detect the expression of the full-length protein in mutant-injected oocytes. Our results expand the spectrum of kNBC1 mutations in permanent isolated pRTA with ocular abnormalities and increase our understanding of the renal tubular mechanism that is essential for acid-base homeostasis.
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