Enhanced tumorigenicity caused by truncation of the extracellular domain of GP125/CD98 heavy chain

Hara, Kazushi; Kudoh, Hiroshi; Enomoto, Takemi; Hashimoto, Yuichi; Masuko, Takashi

doi:10.1038/sj.onc.1204019

Cited by 26 publications

(42 citation statements)

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“…It has been shown previously that 4F2 overexpression in NIH 3T3 cells results in changes consistent with malignant transformation 17,20 and monoclonal antibodies against 4F2 have been shown to inhibit tumor cell nucleic acid synthesis and proliferation of several cell types. 21,22 The malignant alterations, however, required association with the CD98 complex light chain.…”

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confidence: 85%

“…[8][9][10][11][12][13] The glycoprotein-associated transporters are a novel class of amino acid transporters recently the subject of much interest not only in relation to transport but also to CD98-linked functions in cell activation, integrin signaling, cell fusion and malignant transformation. [14][15][16][17] Our research has utilized a tetracycline-inducible adenoviral expression system (TET-Off) system to alter levels of LAT1 and 4F2 in vitro. We have increased LAT1 expression in normal hepatic cells to determine functional changes occurring in processes associated with cancer.…”

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confidence: 99%

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Adenoviral modulation of the tumor‐associated system L amino acid transporter, LAT1, alters amino acid transport, cell growth and 4F2/CD98 expressionwith cell‐type specific effects in cultured hepatic cells

Storey

Fugère

Lesieur-Brooks

et al. 2005

Intl Journal of Cancer

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Altered expression of metabolite transporters is observed frequently in tumor cell lines and primary neoplasms. The extent to which these may to contribute to the growth autonomy associated with cancer is not clear. LAT1 is a major L-type amino acid transporter over-expressed in a variety of cancer types and a light chain component of the CD98 heterodimer. We utilized an adenoviral expression system to modulate the level of LAT1 in a hepatic in vitro model to examine phenotypic changes associated with short-term exogenous and blocked expression. LAT1 levels were increased three fold and resulted in increased L-type amino acid transport as a result of adenoviral expression in murine hepatocytes. The protein was expressed on the cell surface and complexed with the CD98 heavy chain known as 4F2. Surprisingly, levels of the total CD98 protein complex were increased 2.4-fold as a result of adenoviral expression of light chain only, suggesting coordinate regulation. Exogenous overexpression was less effective in normal rat liver cells relative to mouse. LAT1 antisense expression in hepatic tumor cells resulted in a modest though statistically significant decrease in cell number, viability and S-phase cells over a 5-day period relative to controls despite the absence of a significant decrease in L-type transport over this period. These studies are preparatory to in vivo efforts focusing on LAT1/CD98 as a potential therapeutic target. ' 2005 Wiley-Liss, Inc.Key words: LAT1; 4F2; CD98; leucine; adenovirus Recent studies have demonstrated that LAT1 is a major L-type amino acid transporter in a variety of cancer cells including hepatic, 1-3 oral, 4 breast, 5 bladder 6 and colon. 7 This predicted 12 transmembrane spanning protein mediates sodium independent transport of large neutral amino acids including several essential amino acids and is a major route for providing tumor cells with branched and aromatic amino acids. Because these amino acids are indispensable for growth and proliferation-dependent protein synthesis, LAT1 represents a target of high potential therapeutic interest. LAT1 exhibits broad substrate selectivity and is responsible for transport not only of naturally occurring amino acids, but also amino acid-related drugs such as l-dopa, melphalan, (an anti-cancer phenylalanine mustard), triiodothyronine and thyroxine and gabapentin, an anti-convulsant. Functional expression of LAT1 in the plasma membrane requires an additional single transmembrane glycoprotein known as 4F2 antigen or heavy chain and together these form a heterodimeric complex known as CD98. [8][9][10][11][12][13] The glycoprotein-associated transporters are a novel class of amino acid transporters recently the subject of much interest not only in relation to transport but also to CD98-linked functions in cell activation, integrin signaling, cell fusion and malignant transformation. [14][15][16][17] Our research has utilized a tetracycline-inducible adenoviral expression system (TET-Off) system to alter levels of LAT1 and 4F2 in vitro. We have...

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confidence: 85%

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confidence: 99%

Adenoviral modulation of the tumor‐associated system L amino acid transporter, LAT1, alters amino acid transport, cell growth and 4F2/CD98 expressionwith cell‐type specific effects in cultured hepatic cells

Storey

Fugère

Lesieur-Brooks

et al. 2005

Intl Journal of Cancer

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“…Stable NIH3T3 transfectant clones expressing full-length human CD98hc protein (NIH/hH-1, NIH/hH-2 and NIH/hH-3) and a control NIH3T3 transfectant clone (NIH/neo) were maintained in DMEM containing 10% FBS and 400 lg/mL of Geneticin disulfate (G418; Wako Pure Chemical Industries, Osaka, Japan). (31,33) Multiple aliquots of individual clones (passages 5-10) were frozen, and each aliquot was used for no more than 2 weeks, to avoid potential phenotypic changes. Expression of human CD98hc protein on the cell surface of each clone was confirmed periodically by flow cytometry, as described previously.…”

Section: Methodsmentioning

confidence: 99%

“…Several groups report the higher expression of CD98 in restricted normal tissues, which contain actively dividing cells. (1,2,(21)(22)(23)(24)(25) As to the involvement of CD98 in cancers, we have reported higher expression of CD98 in various cancer cells using specific anti-CD98hc mAb, (2,26) growth inhibition of cancer cells by anti-CD98hc mAb (27)(28)(29) or by liposomes containing anticancer drug and coated with anti-CD98hc mAb, (30) malignant transformation of mouse fibroblasts by DNA transfection of human and rat cDNA of CD98hc, (31)(32)(33) and cooperation between CD98hc and CD98lc in the malignant transformation. (32) We have recently demonstrated that the CD98lc responsible for CD98hc-mediated malignant transformation is L-type amino-acid transporter 1 (LAT1), also referred to as solute carrier (SLC) 7A5, among six CD98lc, namely, LAT1, LAT2 (SLC7A8), y+LAT1 (SLC7A7), y+LAT2 (SLC7A6), asc1 (SLC7A10) and xCT (SLC7A11), from experimental genetics using LAT1 gene-disrupted chicken DT40 cells.…”

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confidence: 99%

“…As mentioned above, we have found that murine fibroblasts transfected with human or rat CD98hc cDNA show various malignant phenotypes. (31)(32)(33) Proliferation of normal mammalian cells is directly related to the cell cycle, (35) and deregulation of cell cycle progression results in oncogenesis. (36) To understand the function of CD98 with respect to cellular proliferation and malignancy, in the present study, we analyze the cell-cycle progression and expression of G1 cyclins, CDK, and their inhibitors using NIH3T3 clones transfected with full-length cDNA of human CD98hc.…”

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NIH3T3 cells overexpressing CD98 heavy chain resist early G1 arrest and apoptosis induced by serum starvation

et al. 2012

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CD98 is a heterodimeric glycoprotein of 125‐kDa, which consists of a 90‐kDa heavy chain (hc) subunit and 35‐kDa to 55‐kDa light chain (lc) subunits. It is strongly expressed on the surface of proliferating normal cells and almost all tumor cells. To investigate the participation of CD98 in cellular proliferation and malignant transformation, we analyzed cell‐cycle progression of NIH3T3 clones transfected with cDNA of human CD98hc. Although NIH3T3 and control transfectant cells grown to the subconfluent state were arrested in the G0/G1 phase by serum starvation, considerable portions of CD98hc‐transfected cells resided at S and G2/M phases. Under serum‐starved and confluent conditions, significant fractions (20–25%) of NIH3T3 and control transfectant cells contained less than 2n content DNA, indicating occurrence of apoptosis, whereas no apoptotic cells were detected in CD98hc‐transfectant cells. Under serum‐starved conditions, a marked increase in the levels of cyclin D1 and cyclin E and a decrease in p16 were observed in CD98hc‐transfectant cells. The reverse was true for NIH3T3 and control transfectant cells. Our results suggest that resistance to G1 arrest and apoptosis by CD98 overexpression are associated with high G1‐cyclins and low p16 levels. (Cancer Sci, doi: 10.1111/j.1349‐7006.2012.02304.x, 2012)

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Structural characterization and unfolding mechanism of human 4F2hc ectodomain

Turnay

Fort

Olmo

et al. 2011

Biochimica et Biophysica Acta (BBA) - Proteins and Proteomics

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Enhanced tumorigenicity caused by truncation of the extracellular domain of GP125/CD98 heavy chain

Cited by 26 publications

References 51 publications

Adenoviral modulation of the tumor‐associated system L amino acid transporter, LAT1, alters amino acid transport, cell growth and 4F2/CD98 expressionwith cell‐type specific effects in cultured hepatic cells

Adenoviral modulation of the tumor‐associated system L amino acid transporter, LAT1, alters amino acid transport, cell growth and 4F2/CD98 expressionwith cell‐type specific effects in cultured hepatic cells

NIH3T3 cells overexpressing CD98 heavy chain resist early G1 arrest and apoptosis induced by serum starvation

Structural characterization and unfolding mechanism of human 4F2hc ectodomain

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