The Human SLC7A5 (LAT1): The Intriguing Histidine/Large Neutral Amino Acid Transporter and Its Relevance to Human Health

Scalise, Mariafrancesca; Galluccio, Michele; Console, Lara; Pochini, Lorena; Indiveri, Cesare

doi:10.3389/fchem.2018.00243

Cited by 220 publications

(236 citation statements)

References 111 publications

(190 reference statements)

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“…One distinct cluster upregulates the SLC7A3 and SLC7A5 genes. SLC7A5 is a known thyroid hormone transporter for its T3/T4 states (Scalise et al, 2018) that has been reported in human fetal retinas and organoids (Eldred et al, 2018;Hoshino et al, 2017).…”

Section: Discussionmentioning

confidence: 99%

Identification of genes with enriched expression in early developing mouse cone photoreceptors

Buenaventura

Corseri

Emerson

2019

Preprint

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26Cone photoreceptors are the critical first cells that mediate high acuity vision. Despite 27 their importance and their potential use in cell-based therapies for retinal diseases, 28 there is a lack of knowledge about the early developmental stages of these cells. Here 29 we characterize the expression of the homeobox transcription factor Lhx4 as an early 30 and enriched cone photoreceptor expressed gene in both chicken and mouse. A Lhx4 31 GFP reporter mouse was found to recapitulate this early cone photoreceptor expression 32 and was used to purify and profile embryonic mouse cone photoreceptors by single cell 33 RNA sequencing. This enrichment in cone photoreceptors allowed for the robust 34 identification of genes associated with the early cone transcriptome and also identified 35 subpopulations of these cells. A comparison to previously reported datasets allowed the 36 classification of genes according to developmental timing, cell type specificity, and 37 whether they were regulated by the rod transcription factor Nrl. This analysis has 38 extended the set of known early cone enriched genes and identified those that are 39 regulated independently of Nrl. This report furthers our knowledge of the transcriptional 40 events that occur in early cone photoreceptors. 41 42 43 44 86 are not completely transformed into cones.87 88 89 RESULTS 90 LHX4 is present in early cone photoreceptors in the chicken retina 91 Recently, we established the transcriptional profile of retinal progenitor cells 92 (RPCs), defined by the activity of the ThrbCRM1 element, that are biased towards the 93 cone and horizontal cell (HC) fate in the early chick retina 3 . Using this dataset, we 94 screened for potential cone-enriched transcripts that could serve as markers for early 95 cones. After establishing a criterion for >1.5-fold change score between cone/HC RPCs 96 and other concurrent populations (enriched in "Other early retinal progenitors") we 97 selected for transcription factors (TFs) enriched in the cone/HC RPCs (Fig 1 A). We 98 identified the LIM homeobox 4 (LHX4) gene as highly enriched, along with known TFs in 99 this population such as THRB, ONECUT1, and OTX2. This transcript has significant fold 100 change (b = 3.3) and a low number of reads in the non-ThrbCRM1 active population, 101suggesting high specificity towards the cone/HC RPC population at this time (Fig 1 B). 102 A previous report has examined the presence of LIM-domain factors in early 103 chick photoreceptor development 15 . This study suggested that LHX3 was abundantly 104 present in the apical portion of the retina and localized to photoreceptors once the ONL 105 is clearly distinguished. As the RNA-Seq data indicated that LHX4 expression is 106 prominent in ThrbCRM1 reporter-positive cells at early stages while LHX3 transcript 107presence is marginal in all targeted cells (Supp. Fig. 1 A), we suspected that this 108 previous study could have detected LHX4 instead of LHX3 at earlier timepoints. To test 109 this, we electroporated a mouse LHX4 misex...

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Section: Discussionmentioning

confidence: 99%

Identification of genes with enriched expression in early developing mouse cone photoreceptors

Buenaventura

Corseri

Emerson

2019

Preprint

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“…YBX3 translation is reduced upon inhibition of mTORC1 by the specific inhibitor Torin-1 (Thoreen et al, 2012), suggesting that YBX3 expression is potentially regulated by cellular amino acids by mTORC1 activity, which, in turn, regulates SLC transporter expression and the import of essential amino acids. There are numerous examples of physiological and pathological conditions that require increases in SLC expression, including T cell activation, cell growth, and development, as well as cancer and inflammatory diseases (Fotiadis et al, 2013;Ren et al, 2017;Scalise et al, 2018). For example, SLC7A5 and SLC3A2 expression rapidly increase in human skeletal muscle after essential amino acid ingestion, which was suggested to be an adaptive response needed to increase amino acid uptake after eating (Drummond et al, 2010).…”

Section: Discussionmentioning

confidence: 99%

The RNA-Binding Protein YBX3 Controls Amino Acid Levels by Regulating SLC mRNA Abundance

et al. 2019

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“…Importantly, mTOR-associated xenophagy is limited by the uptake of essential amino acids such as leucine (62); because amino acid transportation is limited by glutamine, and glutamine metabolism is altered in metastatic cell lines such as HeLa, Shigella studies of amino acid starvation and xenophagy are constrained by physiologically relevant model systems. In generalized amino acid starvation studies, autophagy is governed by the ATF4-mediated regulation of SLC7A5, a heterodimeric antiporter which couples the influx of leucine/isoleucine with the efflux of glutamine (63,64). Because S. flexneri infection depletes host leucine and isoleucine and activates ATF3, likely through the ATF4 stress response (60), we hypothesized that SLC7A5 is upregulated during S. flexneri infection of colonoid monolayers.…”

mentioning

confidence: 99%

Human Intestinal Enteroids as a Model System of Shigella Pathogenesis

et al. 2019

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The enteric bacterium and intracellular human pathogen Shigella causes hundreds of millions of cases of the diarrheal disease shigellosis per year worldwide. Shigella is acquired by ingestion of contaminated food or water; upon reaching the colon, the bacteria invade colonic epithelial cells, replicate intracellularly, spread to adjacent cells, and provoke an intense inflammatory response. There is no animal model that faithfully recapitulates human disease; thus, cultured cells have been used to model Shigella pathogenesis. However, the use of transformed cells in culture does not provide the same environment to the bacteria as the normal human intestinal epithelium. Recent advances in tissue culture now enable the cultivation of human intestinal enteroids (HIEs), which are derived from human intestinal stem cells, grown ex vivo, and then differentiated into "mini-intestines." Here, we demonstrate that HIEs can be used to model Shigella pathogenesis. We show that Shigella flexneri invades polarized HIE monolayers preferentially via the basolateral surface. After S. flexneri invades HIE monolayers, S. flexneri replicates within HIE cells and forms actin tails. S. flexneri also increases the expression of HIE proinflammatory signals and the amino acid transporter SLC7A5. Finally, we demonstrate that disruption of HIE tight junctions enables S. flexneri invasion via the apical surface.

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The Human SLC7A5 (LAT1): The Intriguing Histidine/Large Neutral Amino Acid Transporter and Its Relevance to Human Health

Cited by 220 publications

References 111 publications

Identification of genes with enriched expression in early developing mouse cone photoreceptors

Identification of genes with enriched expression in early developing mouse cone photoreceptors

The RNA-Binding Protein YBX3 Controls Amino Acid Levels by Regulating SLC mRNA Abundance

Human Intestinal Enteroids as a Model System of Shigella Pathogenesis

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