Sodium-Dependent Glucose Transporter-1 as a Novel Immunological Player in the Intestinal Mucosa

Palazzo, Marco; Gariboldi, Silvia; Zanobbio, Laura; Selleri, Silvia; Dusio, Giuseppina; Mauro, Valentina; Rossini, Anna; Balsari, Andrea; Rumio, Cristiano

doi:10.4049/jimmunol.181.5.3126

Cited by 34 publications

(20 citation statements)

References 60 publications

(63 reference statements)

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“…This protective effect is independent of glucose metabolism, since BLF501 is a C-glycoside and, as such, does not enter the metabolic pathways of D-glucose [21]. The protective effect of the orally-administered SGLT-1 agonist 3-O-methyl-glucose (3-OMG), a non-metabolizable analog of D-glucose that does not enter glucose metabolic pathways, and of D-glucose has been previously reported in a model of LPS-induced injury to the intestinal mucosa [19]. It is noteworthy that the dose of BLF501 necessary to protect from DXR-induced injury was much lower than doses of D-glucose or 3-OMG shown to protect from LPS-induced injury (25 μg/kg vs 2.5 g/kg).…”

Section: Discussionmentioning

confidence: 99%

“…For example, expression of SGLT-1 was shown to be necessary to preserve the integrity of plasma membranes and tight junctions in tubular renal epithelial cells after exposure to cisplatin in vitro [16,18]. Moreover, we have shown in a mouse model of septic shock that oral administration of high doses of D-glucose or the non-metabolized glucose analog 3-0-methyl-D-glucopyransoide protected the intestinal epithelium from lipopolysaccharide-induced inflammatory injury [19,20]. Based on these data, we speculated that SGLT-1-mediated signaling might be beneficial in maintaining intestinal mucosal integrity from chemotherapy-induced damage.…”

Section: Introductionmentioning

confidence: 99%

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Sodium glucose cotransporter 1 ligand BLF501 as a novel tool for management of gastrointestinal mucositis

et al. 2014

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BackgroundRecent studies demonstrated that engagement of sodium glucose transporter 1 (SGLT-1) by orally administered D-glucose protects the intestinal mucosa from lipopolysaccharide (LPS)-induced injury. We tested whether SGLT-1 engagement might protect the intestinal mucosa from doxorubicin (DXR)- and 5-fluorouracil (5-FU)-induced injury in animal models mimicking acute or chronic mucositis.MethodsMice were treated intraperitoneally with DXR, alone or in combination with 5-FU, and orally with BLF501, a glucose-derived synthetic compound with high affinity for SGLT-1. Intestinal mucosal epithelium integrity was assessed by histological analysis, cellular proliferation assays, real-time PCR gene expression assays and Western blot assays. Student’s t-test (paired two-tailed) and χ2 analyses were used for comparisons between groups. Differences were considered significant at p < 0.05.ResultsBLF501 administration in mice treated with DXR and/or 5-FU decreased the injuries to the mucosa in terms of epithelial integrity and cellular proliferative ability. Co-treatment with BLF501 led to a normal expression and distribution of both zonula occludens-1 (ZO-1) and beta-catenin, which were underexpressed after treatment with either chemotherapeutic agent alone. BLF501 administration also restored normal expression of caspase-3 and ezrin/radixin/moesin (ERM), which were overexpressed after treatment with DXR and 5-FU. In SGLT1-/- mice, BLF501 had no detectable effects. BLF501 administration in wild-type mice with growing A431 tumors did not modify antitumor activity of DXR.ConclusionsBLF501-induced protection of the intestinal mucosa is a promising novel therapeutic approach to reducing the severity of chemotherapy-induced mucositis.

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Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Sodium glucose cotransporter 1 ligand BLF501 as a novel tool for management of gastrointestinal mucositis

et al. 2014

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“…Unlike the facilitative glucose carriers of the GLUT family [10-12], the Na + -coupled glucose carriers can transport glucose against a chemical gradient and accomplish cellular glucose accumulation even at low extracellular glucose concentrations [9]. SGLT1 is expressed in intestinal epithelial cells and SGLT1 as well as SGLT2 in renal epithelial cells thus accomplishing the concentrative cellular uptake of glucose from the intestinal or renal tubular lumen across the apical cell membrane [9, 13]. The low luminal glucose concentrations provide some protection against luminal bacterial growth and genetic or pharmacological inhibition of the carriers may favor the development of urinary tract infection [14, 15] and diarrhea [16, 17].…”

Section: Introductionmentioning

confidence: 99%

SGLT1 Deficiency Turns Listeria Infection into a Lethal Disease in Mice

Sharma

Khairnar

Madunić

et al. 2017

Cell Physiol Biochem

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Background: Cellular glucose uptake may involve either non-concentrative glucose carriers of the GLUT family or Na⁺-coupled glucose-carrier SGLT1, which accumulates glucose against glucose gradients and may thus accomplish cellular glucose uptake even at dramatically decreased extracellular glucose concentrations. SGLT1 is not only expressed in epithelia but as well in tumour cells and immune cells. Immune cell functions strongly depend on their metabolism, therefore we hypothesized that deficiency of SGLT1 modulates the defence against bacterial infection. To test this hypothesis, we infected wild type mice and gene targeted mice lacking functional SGLT1 with Listeria monocytogenes. Methods: SGLT1 deficient mice and wild type littermates were infected with 1x10⁴ CFU Listeria monocytogenes intravenously. Bacterial titers were determined by colony forming assay, SGLT1, TNF-α, IL-6 and IL-12a transcript levels were determined by qRT-PCR, as well as SGLT1 protein abundance and localization by immunohistochemistry. Results: Genetic knockout of SGLT1 (Slc5a1^–/– mice) significantly compromised bacterial clearance following Listeria monocytogenes infection with significantly enhanced bacterial load in liver, spleen, kidney and lung, and significantly augmented hepatic expression of TNF-α and IL-12a. While all wild type mice survived, all SGLT1 deficient mice died from the infection. Conclusions: SGLT1 is required for bacterial clearance and host survival following murine Listeria infection.

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“…Methyl a-d-glucopyranoside was reduced with triethylsilane, affording 1-deoxy-d-glucose 9. Then selective tosylation of the primary hydroxy group, treatment of the tosylate 10 with NaN 3 , reduction of the obtained azide 11 with H 2 /Pd(OH) 2 , and finally treatment of the amine 12 with dansyl chloride, afforded compound 13.…”

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confidence: 99%

“…[2] This protection is mediated by the activation of the sodium-dependent glucose transporter-1 (SGLT-1). A major drawback of this treatment is that a high concentration of glucose, which impacts metabolism, must be used.…”

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confidence: 99%

Dansyl C‐Glucoside as a Novel Agent Against Endotoxic Shock

et al. 2010

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An efficient protocol to synthesize iodohydrins from alkenes is presented. Reactions were conducted in aqueous media using safe and readily available sodium iodide (the most abundant form of the element), and a highly convenient oxidant such as hydrogen peroxide. Addition of a protic acid triggers a faster and efficient process, a role formally related to that played by haloperoxidase enzymes in naturally occurring transformations. The successful application of these conditions to multigram scale preparations and over natural products derivatives is also discussed.

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Sodium-Dependent Glucose Transporter-1 as a Novel Immunological Player in the Intestinal Mucosa

Cited by 34 publications

References 60 publications

Sodium glucose cotransporter 1 ligand BLF501 as a novel tool for management of gastrointestinal mucositis

Sodium glucose cotransporter 1 ligand BLF501 as a novel tool for management of gastrointestinal mucositis

SGLT1 Deficiency Turns Listeria Infection into a Lethal Disease in Mice

Dansyl C‐Glucoside as a Novel Agent Against Endotoxic Shock

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