2004
DOI: 10.1093/jn/134.10.2752s
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Plasma Membrane Transporters for Arginine

Abstract: The supply of arginine may become rate limiting for enzymatic reactions that use this semiessential amino acid as a substrate (e.g., nitric oxide, agmatine, creatine, and urea synthesis), particularly under conditions of high demand such as growth, sepsis, or wound healing. In addition, arginine acts as a signaling molecule that regulates essential cellular functions such as protein synthesis, apoptosis, and growth. In the past decade, a number of carrier proteins for amino acids have been identified on the mo… Show more

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Cited by 251 publications
(225 citation statements)
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References 81 publications
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“…Arginine uptake is mediated via multiple amino acid transporters (Closs et al, 2004), including the Y ϩ system (CAT1, CAT2, and CAT3) that is primarily responsible for arginine uptake in primary cortical neurons (Stevens and Vo, 1998). RT-PCR reveals the presence of CAT1 and CAT3 but not CAT2 in cortical preparations, consistent with the known absence of CAT2 in nervous tissue (Fig.…”
Section: Nmda Receptor Activation Decreases Arginine Uptake and Surfasupporting
confidence: 65%
See 1 more Smart Citation
“…Arginine uptake is mediated via multiple amino acid transporters (Closs et al, 2004), including the Y ϩ system (CAT1, CAT2, and CAT3) that is primarily responsible for arginine uptake in primary cortical neurons (Stevens and Vo, 1998). RT-PCR reveals the presence of CAT1 and CAT3 but not CAT2 in cortical preparations, consistent with the known absence of CAT2 in nervous tissue (Fig.…”
Section: Nmda Receptor Activation Decreases Arginine Uptake and Surfasupporting
confidence: 65%
“…Arginine can be accumulated by a variety of amino acid transport systems (Closs et al, 2004). Three relatively selective arginine transport proteins have been cloned and are designated cationic amino acid transporters (CATs) (Closs EI, 2002).…”
Section: Introductionmentioning
confidence: 99%
“…Аргинин, который поступает с пищей, захва-тывается клетками эпителия кишечника и пере-носится через плазматическую мембрану с по-мощью y + системы катионных аминокислотных транспортеров [15]. Концентрация аминокис-лоты в плазме составляет 80-120 μmol/L.…”
Section: метаболизм аргинина в эукариотических клет-кахunclassified
“…[31]). It includes transcriptional [32], translational and posttranslational [33][34][35] regulations of NO-synthesis mechanisms, negative feedback regulation of NOS by NO [36][37][38][39], membrane transport of substrates [40][41][42][43], intracellular metabolic recycling of substrates [43][44][45][46][47][48][49][50][51], availability of molecular oxygen and cell respiration [52][53][54][55][56][57], and intracellular redox state [58][59][60].…”
Section: No Productionmentioning
confidence: 99%
“…Most of these transport systems have been identified in a tight alliance with elevated synthesis of NO belong to SLC7 family (HUGO; phylogenetically-driven Solute Carrier Family nomenclature) [105], except for the sodiumdependent B 0,+ [106,107] which represents a unique mammalian member A14 of the sodium neurotransmitter symporter family (SNF, SLC6A14). Three transporters comprising a cationic amino acid transporters subfamily of SLC7, CAT (member SLC7A1-A4), are considered as high-capacitance essential substrate providers for normal NOS activity in different tissues [42]. CAT-1 and CAT-3 are associated with constitutive eNOS and nNOS activity, respectively, while both low-and high-affinity isoforms of CAT-2 (A and B isoforms respectively) were found to be co-induced with iNOS in macrophage-pathogen interaction responses and some other tissues [41,105].…”
Section: Nos Substrate L-arginine-l-mentioning
confidence: 99%