Developmental gene expression and tissue distribution of the CHIP28 water-channel protein.

Bondy, Carolyn A.; Chin, Edward; Smith, Barbara L.; Preston, Gregory M.; Agre, Peter

doi:10.1073/pnas.90.10.4500

Cited by 173 publications

(93 citation statements)

References 16 publications

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“…AQP1 is expressed in vascular endothelial cells throughout the body, except in the normal central nervous system [15]. The function of AQP1 in vascular endothelial cells was established using an in vivo tumor angiogenesis assay in which wild-type and AQP1-null mice were subcutaneously implanted with B16F10 melanoma cells [14].…”

Section: Aqp1 Facilitates Tumor Angiogenesis and Endothelial Cell Migmentioning

confidence: 99%

Aquaporins—new players in cancer biology

2008

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The aquaporins (AQPs) are small, integralmembrane proteins that selectively transport water across cell plasma membranes. A subset of AQPs, the aquaglyceroporins, also transport glycerol. AQPs are strongly expressed in tumor cells of different origins, particularly aggressive tumors. Recent discoveries of AQP involvement in cell migration and proliferation suggest that AQPs play key roles in tumor biology. AQP1 is ubiquitously expressed in tumor vascular endothelium, and AQP1-null mice show defective tumor angiogenesis resulting from impaired endothelial cell migration. AQP-expressing cancer cells show enhanced migration in vitro and greater local tumor invasion, tumor cell extravasation, and metastases in vivo. AQP-dependent cell migration may involve AQP-facilitated water influx into lamellipodia at the front edge of migrating cells. The aquaglyceroporin AQP3, which is found in normal epidermis and becomes upregulated in basal cell carcinoma, facilitates cell proliferation in different cell types. Remarkably, AQP3-null mice are resistant to skin tumorigenesis by a mechanism that may involve reduced tumor cell glycerol metabolism and ATP generation. Together, the data suggest that AQP expression in tumor cells and tumor vessels facilitates tumor growth and spread, suggesting AQP inhibition as a novel antitumor therapy.

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Section: Aqp1 Facilitates Tumor Angiogenesis and Endothelial Cell Migmentioning

confidence: 99%

Aquaporins—new players in cancer biology

2008

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“…Expression patterns of aquaporins in organs or tissues are quite different from one another; AQPI is expressed in a wide variety of organs and tissues including kidney, eye, spleen, lung, and choroid plexus [13][14][15][16][17], AQP2 exclusively in the renal collecting duct [18,19], AQP3 in the kidney, colon, and *Corresponding author. Fax: (81) (3) 5802-3302.…”

Section: Introductionmentioning

confidence: 99%

“…However, there has been little information in this respect. Although AQP1 is known to be expressed in various tissues and organs [13][14][15][16][17], it has not been detected in stomach [20,21].…”

Section: Introductionmentioning

confidence: 99%

A water channel closely related to rat brain aquaporin 4 is expressed in acid‐ and pepsinogen‐secretory cells of human stomach

et al. 1996

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We isolated a cDNA clone encoding a water channel protein, aqnaporin (AQP), from human stomach. The encoded protein consisted of 323 amino acid residues, containing six putative transmembrane domains. The protein was designated human aqnaporin 4 (hAQP4) because of its 94% sequence similarity to rat brain AQP4. Expression of hAQP4 cRNA in Xenopus oocytes resulted in a significant increase in osmotic water permeability, indicating that this protein functions as a water channel. Northern blot analysis demonstrated a strong signal of hAQP4 mRNA in brain, lung, and skeletal muscle as well as in stomach. Immunohistochemical experiments with human stomach tissues showed that hAQP4 as a protein is expressed mainly in cells located in the glandular portion of the fundic mucosa. These include chief cells which secrete pepsinogen and parietal cells which secrete hydrochloric acid. These results strongly indicate that hAQP4 is a principal factor involved in the osmotic regulation of pepsinogen and acid secretion in the stomach.

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“…Age-and tissue-specific patterns of AQP1 expression have been shown for kidney, lung, brain, and eye (2,3). Corticosteroids induce AQP1 in rat lung in vivo (3) and an erythroleukemia cell line in vitro (4); the AQP1 proximal promoter contains classical glucorticoid response elements to which activity has been localized.…”

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confidence: 99%

Altered ubiquitination and stability of aquaporin-1 in hypertonic stress

Leitch

Agre

King

2001

Proc. Natl. Acad. Sci. U.S.A.

126

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Aquaporin-1 (AQP1) water channel protein expression is increased by hypertonic stress. The contribution of changes in protein stability to hypertonic induction of AQP1 have not been described. Incubation of BALB͞c fibroblasts spontaneously expressing AQP1 with proteasome inhibitors increased AQP1 expression, suggesting basal proteasome-dependent degradation of the protein. Degradation by the proteasome is thought to be triggered by polyubiquitination of a target protein. To determine whether AQP1 is ubiquitinated, immunoprecipitation with anti-AQP1 antibodies was performed, and the resultant samples were probed by protein immunoblot for the presence of ubiquitin. Immunoblots demonstrated ubiquitination of AQP1 under control conditions that increased after treatment with proteasome inhibitors (MG132, lactacystin). Exposure of cells to hypertonic medium for as little as 4 h decreased ubiquitination of AQP1, an effect that persisted through 24 h in hypertonic medium. Using metabolic labeling with [ 35 S]methionine, the half-life of AQP1 protein under isotonic conditions was found to be <4 h. AQP1 protein half-life was markedly increased by exposure of cells to hypertonic medium. These observations provide evidence that aquaporins are a target for ubiquitination and proteasome-dependent degradation. Additionally, these studies demonstrate that reduced protein ubiquitination and increased protein stability lead to increased levels of AQP1 expression during hypertonic stress.A quaporin-1 (AQP1) is a water channel protein expressed in many tissues, whose regulation is known to be complex (1). Age-and tissue-specific patterns of AQP1 expression have been shown for kidney, lung, brain, and eye (2, 3). Corticosteroids induce AQP1 in rat lung in vivo (3) and an erythroleukemia cell line in vitro (4); the AQP1 proximal promoter contains classical glucorticoid response elements to which activity has been localized. AQP1 expression is induced by hypertonic stress in kidney cells lines (5, 6), as well as in BALB͞c fibroblasts in culture and in rat in vivo (L.K., unpublished observations). A potential role for posttranslational events in the regulation of AQP1 expression has not been described.It is increasingly apparent that posttranslational events play an active role in determining the level of protein expression in a cell. Two major protein degradative pathways are known to operate in mammalian cells, the 26S proteasome (7), and cysteine proteases, including cytoplasmic calcium-dependent calpains (8) and lysosomal acidic cathepsins (9). The 76-aa protein ubiquitin plays a key role in proteasome-mediated protein degradation, because polyubiquitination of a target protein is a necessary signal for processing by the proteasome (7). A limited number of membrane transport proteins have been demonstrated to be ubiquitinated (10). Ubiquitination has not been shown for any member of the aquaporin family of proteins.The studies reported here examine the role of ubiquitination and protein degradation in hypertonic induction of AQP1 e...

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Developmental gene expression and tissue distribution of the CHIP28 water-channel protein.

Cited by 173 publications

References 16 publications

Aquaporins—new players in cancer biology

Aquaporins—new players in cancer biology

A water channel closely related to rat brain aquaporin 4 is expressed in acid‐ and pepsinogen‐secretory cells of human stomach

Altered ubiquitination and stability of aquaporin-1 in hypertonic stress

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