Kidney Amino Acid Transport

Kidney Amino Acid Transport

View metadata, citation and similar papers at core.ac.uk brought to you by CORE provided by RERO DOC Digital Library Pflugers Arch - Eur J Physiol (2009) 458:53–60 DOI 10.1007/s00424-009-0638-2 ION CHANNELS, RECEPTORS AND TRANSPORTERS Kidney amino acid transport François Verrey & Dustin Singer & Tamara Ramadan & Raphael N. Vuille-dit-Bille & Luca Mariotta & Simone M. R. Camargo Received: 13 November 2008 /Accepted: 13 January 2009 /Published online: 28 January 2009 # Springer-Verlag 2009 Abstract Near complete reabsorption of filtered amino lateral efflux of numerous amino acids from kidney tubular acids is a main specialized transport function of the kidney cells is mediated by heteromeric amino acid transporters proximal tubule. This evolutionary conserved task is carried that function as obligatory exchangers. Thus, other trans- out by a subset of luminal and basolateral transporters that porters within the same membrane need to mediate the net together form the transcellular amino acid transport efflux of exchange substrates, controlling thereby the net machinery similar to that of small intestine. A number of basolateral amino transport and thus the intracellular amino other amino acid transporters expressed in the basolateral acid concentration. membrane of proximal kidney tubule cells subserve either specialized metabolic functions, such as the production of Keywords Amino acid transport . Kidney . Proximal tubule . ammonium, or are part of the cellular housekeeping Transporter . Ammonia . Angiotensin equipment. A new finding is that the luminal Na+- dependent neutral amino acid transporters of the SLC6 family require an associated protein for their surface Different kidney amino acid transporter functions expression as shown for the Hartnup transporter B0AT1 (SLC6A19) and suggested for the L-proline transporter Amino acids play central roles in the metabolism of all SIT1 (IMINOB, SLC6A20) and for B0AT3 (XT2, organisms, in particular the 20 proteogenic amino acids SLC6A18). This accessory subunit called collectrin that are building blocks of proteins. Amino acids also (TMEM27) is homologous to the transmembrane anchor play an important role as substrates for energy produc- region of the renin–angiotensin system enzyme ACE2 that tion, as substrates for the synthesis of other molecules, we have shown to function in small intestine as associated such as compatible osmolytes and also as neurotrans- subunit of the luminal SLC6 transporters B0AT1 and SIT1. mitters. For mammals, approximately half of the Some mutations of B0AT1 differentially interact with these proteogenic amino acids are essential, meaning that accessory subunits, providing an explanation for differential they need to be taken up from the diet, since they intestinal phenotypes among Hartnup patients. The baso- cannot be synthesized in the organism. Because free amino acids present in the blood plasma are filtered at * : : : : the level of the kidney glomeruli in substantial amounts, F. Verrey ( : ) D. Singer T. Ramadan R. N. Vuille-dit-Bille L. Mariotta S. M. R. Camargo namely more than 50 g per day in humans, their Institute of Physiology, University of Zürich, reabsorption by the kidney proximal tubules that Winterthurerstrasse 190, prevents their loss in the urine is a very important 8057 Zürich, Switzerland e-mail: [email protected] function from the point of view of the organism : : : : homeostasis [56]. This transepithelial transport from the F. Verrey D.: Singer T. Ramadan R. N. Vuille-dit-Bille kidney tubular lumen into the extracellular space is L. Mariotta S. M. R. Camargo therefore a much conserved function of the proximal Zürich Center for Integrative Human Physiology (ZIHP), University of Zürich, tubule. A second amino acid transport function within the Zürich, Switzerland kidney which has a direct impact on organism homeostasis 54 Pflugers Arch - Eur J Physiol (2009) 458:53–60 is the cellular import and/or export of amino acids that are ques to measure how these hydrophilic solutes cross the metabolized by kidney cells. In that regard, an important lipophilic membranes. A first wave of information came regulated transport function is the basolateral uptake of with the description of so-called transport systems that was glutamine along the more distal segments of the proximal made possible by the availability of radio-labeled amino tubule which is required for the production of ammonia, a acids and analytical quantification techniques used to substrate used by kidney tubular cells for the secretion of perform transport studies first in tissues and cells and then protons [32]. Other amino acid transport functions using membrane vesicles [14, 33, 45]. A second wave of observed in tubular cells relate presumably either to information started during the 1990s when the molecular housekeeping and/or to additional specialized functions. identification of amino acid transporters was made possible Although this has not been studied in detail, it appears by complementary DNA cloning and cellular expression meaningful that it is another subset of mostly basolateral techniques [8, 24, 25, 34, 55]. These new approaches transport proteins that accounts for these functions. Thus, allowed the characterization of the function of amino acid proximal kidney cells express, next to their housekeeping transporters in expression systems, the measurement of amino acid transporters, a subset of specialized trans- their messenger RNA (mRNA) expression levels in tissues porters involved in metabolic functions (i.e., ammonium and the production of antibodies to localize the protein. A and glutathione synthesis) and another subset that com- third wave of insight in amino acid transporter function has poses the specialized proximal tubule amino acid reab- started a few years ago with the determination of transport sorption machinery (Fig. 1). A further degree of protein structures [58, 59]. complexity is given by the fact that the specialized The physiological question of the transport function functions are not distributed uniformly along the proximal remains, however, the central issue, at the molecular, tubule axis. cellular, organ, and systemic levels. Characterization of the functional role of amino acid transporters is necessary for understanding life processes and for identifying dys- From structural reductionism to integrative function: functions and corresponding drug targets. The multiple complementary perspectives currently available approaches and future techniques are all required to address these important questions using in Over the past decades, amino acid transport functions have particular gene-modified animal models and also human been investigated using always the newly available techni- subjects. Fig. 1 Cellular model for the reabsorption of amino acids across a proximal kidney tubule cell. Names of the involved Various AA SLC1A1 EAAT3 transporters and their human + transporters with – + + K AA +Na +H – specialized gene are indicated. Most of them AA metabolic and/or have been shown to be housekeeping expressed mainly in the early functions segments of mouse proximal SLC36A2 PAT2 Gly,Ala,Pro+H+ Gly,Ala,Pro tubule (S1 and S2), with the AA- AA- ? exception of SIT1 that is expressed all along the proximal 0 SLC6A20 SIT1 tubule and of B AT3 and 0 0 Pro+Na+ Pro AA AA EAAT3 that are expressed TAT1 and? SLC16A10 and? mainly in the later proximal TMEM27 Coll tubule (S2 and S3). AA0 neutral AA− 4F2hc SLC3A2 amino acid, anionic amino 0 0 + SLC6A19 / 18 B AT1 / B AT3 acid, AA cationic amino acid, 0 + 0 AA +Na AA AA0 Coll AA0 collectrin/TMEM27 LAT2 SLC7A8 TMEM27 Coll 4F2hc SLC3A2 SLC7A9 0,+ b AT AA0 cystine,AA+ Cys,AA+ AA0+Na+ AA+ y+LAT1 SLC7A7 SLC3A1 rBAT tubulus lumen extracellular space Pflugers Arch - Eur J Physiol (2009) 458:53–60 55 Luminal transporters and their associated proteins SGLT1 for glucose and PEPT2 for peptides. Thus, we propose to rename XT2 B0AT3 [36] (Fig. 1). The functional Quantitatively, neutral amino acids represent >80% of the importance of this transporter in humans is, however, free plasma amino acids and are all transported by the questioned by the fact that a substantial proportion of the luminal B0AT1 transporter (SLC6A19), though with differ- population displays a nonsense single nucleotide polymor- ent apparent affinities (Fig. 1). This Na+-neutral amino acid phism in this gene with which no phenotype has as yet been cotransporter (symport) with broad selectivity has been associated [20]. identified a few years ago among previously orphan The expression of B0AT1, as well as that of B0AT3 and members of the SLC6 family of sodium (and chloride)- SIT1 (see below), has been shown recently to depend in dependent neurotransmitter and amino acid transporters [7]. mouse proximal tubule on the expression of collectrin It is expressed in the luminal brush border membrane of the (Tmem27), a relatively short type I transmembrane protein early segments of the kidney proximal tubule and similarly (25 kD) that is approximately 40% identical with the along the small intestine [39]. Its defect has been shown to membrane anchor region of the renin–angiotensin system cause Hartnup disorder, an autosomal recessive condition enzyme ACE2 [19, 29]. That collectrin is associated with which is characterized by a urinary loss of neutral amino B0AT1 in the kidney brush border membranes of wild-type acids [26, 42]. In some cases, this aminoaciduria is mice has been shown by co-immunoprecipitation [19]. In accompanied by pellagra-like light-sensitive

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