Acetaldehyde‐Induced Growth Retardation and Micro‐Heterogeneity of the Sugar Chain in Transferrin Synthesized by HepG2 Cells

Searashi, Yasuyuki; Yamaguchi, Masayoshi; Sakamoto, Kazuhiko; Ohata, Mitsuru; Asakura, Tadashi; Ohkawa, Kiyoshi

doi:10.1111/j.1530-0277.2002.tb02699.x

Cited by 6 publications

(3 citation statements)

References 23 publications

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“…Sillanaukee et al, on the basis of a review of the most relevant literature on CDT, concluded that the ethanol-induced effect on glycoprotein metabolism is a multistep process involving both protein transport and enzyme activity [12]. The effects of ethanol and its metabolites on growth, proliferation and synthesis of transferrin in hepatic cells have been investigated by culturing human hepatoblastoma cells (HepG2) in acetaldeyde containing media [13]. Acetaldehyde proved to facilitate growth retardation, inhibite phosphomannomutase activity and increase secretion of CDT.…”

Section: Pathomechanism Of the Ethanol Induced Cdt Increasementioning

confidence: 99%

Carbohydrate-deficient transferrin (CDT) as a marker of alcohol abuse: A critical review of the literature 2001–2005

Bortolotti

Paoli

Tagliaro

2006

Journal of Chromatography B

145

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Section: Pathomechanism Of the Ethanol Induced Cdt Increasementioning

confidence: 99%

Carbohydrate-deficient transferrin (CDT) as a marker of alcohol abuse: A critical review of the literature 2001–2005

Bortolotti

Paoli

Tagliaro

2006

Journal of Chromatography B

145

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“…PMM2 activity can be modulated by exogenous factors. Acetaldehyde has been shown to be able to suppress the activity of the enzyme without affecting gene expression in HepG2 cells (18). We have demonstrated for the first time that the activity of PMM2 immunoprecipitated from cells treated with insulin is increased more than twofold, suggesting that the activity of the enzyme can be regulated in vivo by hormones.…”

Section: In Vitro Interaction Between Sgk1 and Pmm2mentioning

confidence: 71%

Serum and glucocorticoid-regulated kinase Sgk1 inhibits insulin-dependent activation of phosphomannomutase 2 in transfected COS-7 cells

Menniti

Iuliano

Amato

et al. 2005

American Journal of Physiology-Cell Physiology

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. Serum-and glucocorticoid-regulated kinase Sgk1 inhibits insulin-dependent activation of phosphomannomutase 2 in transfected COS-7 cells. Am J Physiol Cell Physiol 288: C148 -C155, 2005. First published September 1, 2004; doi:10.1152/ ajpcell.00284.2004.-Serum-and glucocorticoid-regulated kinase (Sgk1) is considered to be an essential convergence point for peptide and steroid regulation of ENaC-mediated sodium transport. We tried to identify molecular partners of Sgk1 by yeast two-hybrid screening. Yeast two-hybrid screening showed a specific interaction between Sgk1 and phosphomannomutase (PMM)2, the latter of which is an enzyme involved in the regulation of glycoprotein biosynthesis. The interaction was confirmed in intact cells by coimmunoprecipitation and colocalization detected using confocal microscopy. We were then able to demonstrate that Sgk1 phosphorylated PMM2 in an in vitro assay. In addition, we found that the enzymatic activity of PMM2 is upregulated by insulin treatment and that Sgk1 completely inhibits PMM2 activity both in the absence and in the presence of insulin stimulation. These data provide evidence suggesting that Sgk1 may modulate insulin action on the cotranslational glycosylation of glycoproteins.Sgk; protein glycosylation; CDGIa SGK1 IS A SERINE THREONINE KINASE (22) that regulates sodium absorption by the amiloride-sensitive sodium channel in kidney principal cells (1, 11). The kinase is activated by serum, steroids, insulin, and cAMP (6,14). Recent evidence suggests that serum-and glucocorticoid-regulated kinase (Sgk1) is an important molecular target that integrates the multiple endocrine inputs regulating sodium transport (2, 3). Studies with stably transfected A6 cell lines, a well-characterized model of the principal cells of the distal nephron, have demonstrated that the activation of the kinase is required for basal as well as hormone-stimulated sodium transport. The results are compatible with a model in which Sgk1, once activated by hormonal stimulation, interacts with molecules that mediate Sgk1 action on the epithelial sodium channel (ENaC). One of the classic tools with which to search for an interaction between molecules is based on the possibility of studying the expression of reporter genes in yeast two-hybrid systems (4). This method was recently used by Maiyar et al. (8) and allowed the identification of importin-␣ as an Sgk1-interacting protein, leading nuclear localization of Sgk1.Because our main interest was focused on Sgk1 regulation of sodium absorption in kidney cells, we decided to perform yeast two-hybrid screening using a kidney library as a source of prey cDNA.We found several clones coding for putative Sgk1-interactive molecules. One of them contained the full sequence of phosphomannomutase (PMM)2, a key enzyme regulating the early steps of protein glycosylation and responsible for autosomal recessive congenital disorders of glycosylation type Ia (CDGIa) (19).We present evidence based on colocalization and coimmunoprecipitation experiments that the int...

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“…It is thought that ethanol and its metabolite acetaldehyde can cause Golgi remodeling and have inhibitory effects on glycosyltransferases [37][38][39]. For example, acetaldehyde reduces the activity of the phosphomannomutase PMM2, which can cause the failure of complete glycan maturation or disrupt the en bloc transfers of the oligosaccharide precursor to the asparagine side chain of the nascent polypeptide in the ER (see Figure 4) [40]. We hypothesized that this effect is more pronounced in the liver, the central location for alcohol metabolism, which can explain the strong changes in glycosylation observed for blood proteins compared to little changes on brain-derived proteins.…”

Section: Glycosylation Changes In Cdg Patientsmentioning

confidence: 99%

Glycoproteomics in Cerebrospinal Fluid Reveals Brain-Specific Glycosylation Changes

Baerenfaenger

Post

Langerhorst

et al. 2023

IJMS

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The glycosylation of proteins plays an important role in neurological development and disease. Glycoproteomic studies on cerebrospinal fluid (CSF) are a valuable tool to gain insight into brain glycosylation and its changes in disease. However, it is important to consider that most proteins in CSFs originate from the blood and enter the CSF across the blood–CSF barrier, thus not reflecting the glycosylation status of the brain. Here, we apply a glycoproteomics method to human CSF, focusing on differences between brain- and blood-derived proteins. To facilitate the analysis of the glycan site occupancy, we refrain from glycopeptide enrichment. In healthy individuals, we describe the presence of heterogeneous brain-type N-glycans on prostaglandin H2-D isomerase alongside the dominant plasma-type N-glycans for proteins such as transferrin or haptoglobin, showing the tissue specificity of protein glycosylation. We apply our methodology to patients diagnosed with various genetic glycosylation disorders who have neurological impairments. In patients with severe glycosylation alterations, we observe that heavily truncated glycans and a complete loss of glycans are more pronounced in brain-derived proteins. We speculate that a similar effect can be observed in other neurological diseases where a focus on brain-derived proteins in the CSF could be similarly beneficial to gain insight into disease-related changes.

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Acetaldehyde‐Induced Growth Retardation and Micro‐Heterogeneity of the Sugar Chain in Transferrin Synthesized by HepG2 Cells

Cited by 6 publications

References 23 publications

Carbohydrate-deficient transferrin (CDT) as a marker of alcohol abuse: A critical review of the literature 2001–2005

Carbohydrate-deficient transferrin (CDT) as a marker of alcohol abuse: A critical review of the literature 2001–2005

Serum and glucocorticoid-regulated kinase Sgk1 inhibits insulin-dependent activation of phosphomannomutase 2 in transfected COS-7 cells

Glycoproteomics in Cerebrospinal Fluid Reveals Brain-Specific Glycosylation Changes

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