# α-Tocopherol Improves Microcirculatory Dysfunction on Fructose Fed Hamsters

**Authors:** Beatriz C. S. Boa, Carlos M. M. R. Barros, Maria das Graças C. Souza, Raquel C. Castiglione, Fátima Z. G. A. Cyrino, Eliete Bouskela

PMC · DOI: 10.1371/journal.pone.0134740 · PLoS ONE · 2015-08-05

## TL;DR

This study shows that vitamin E can reverse microvascular damage caused by a high-fructose diet in hamsters, improving blood vessel function and reducing permeability.

## Contribution

The study demonstrates that vitamin E supplementation reverses fructose-induced microvascular dysfunction in hamsters.

## Key findings

- Fructose-fed hamsters showed significantly reduced vasodilation in response to acetylcholine.
- Vitamin E supplementation increased vasodilation and reduced leaky sites after ischemia-reperfusion and histamine exposure.
- Endothelium-independent vasodilation was restored and even enhanced with high-dose vitamin E.

## Abstract

Fructose, an everyday component of western diet associated to chronic hyperglycemia and enhanced free radical production, impairs endothelial function and supplementation with antioxidants might improve it. In this study we investigated if vitamin E could reverse the microvascular damage elicited by fructose. Male Syrian golden hamsters drank either 10% fructose solution (F) or filtered water (C), combined with three concentrations of vitamin E in their chows [zero, normal (VE) or 5X (5XVE)] during 60 days. Microvascular reactivity in response to topical application of acetylcholine (Ach; endothelium-dependent vasodilator) or sodium nitroprusside (SNP; endothelium-independent vasodilator) and macromolecular permeability increase induced by either 30 min ischemia followed by reperfusion (I/R) or topical application of histamine (5 μM) were assessed using the cheek pouch preparation. Compared to controls (drinking filtered water), fructose-drinking animals showed decreased vasodilatation to acetylcholine in all concentrations tested (-56.2% for 10-9M, -53.9% for 10-7M and -43.7% for 10-5M). On the other hand, vitamin E supplementation resulted in increased responses for both water and fructose drinking groups (177.4% for F vs. F/5XVE and 241.6% for C vs. C/5XVE for 10-5M Ach). Endothelial-independent vasodilatation explored by topical application of SNP was restored and even enhanced with the supplementation of 5X vitamin E in both groups (80.1% for F vs. F/5XVE; 144.2% for C vs. C/5XVE; 3.4% of difference for C/5XVE vs. F/5XVE on 10-5M SNP). The number of leaky sites after I/R and histamine stimuli in vitamin E supplemented animals decreased (-25.1% and -15.3% for F vs. F/5XVE; and -21.7% and -16% of leaky sites comparing C vs. C/5XVE, respectively for I/R and histamine stimuli) pointing to tightening of the endothelial barrier for macromolecular permeability. Our results strongly suggest that vitamin E could improve the endothelial function and permeability barrier and also reverse impairments elicited by sugar overload.

## Linked entities

- **Chemicals:** fructose (PubChem CID 5984), α-Tocopherol (PubChem CID 2116), acetylcholine (PubChem CID 187), sodium nitroprusside (PubChem CID 6604165), histamine (PubChem CID 774)

## Full-text entities

- **Genes:** Nos3 (nitric oxide synthase 3) [NCBI Gene 24600] {aka eNos}, EDN1 (endothelin 1) [NCBI Gene 1906] {aka ARCND3, ET1, HDLCQ7, PPET1, QME}, INSR (insulin receptor) [NCBI Gene 3643] {aka CD220, HHF5}, Irs1 (insulin receptor substrate 1) [NCBI Gene 25467] {aka IRS1IRM}, AKT1 (AKT serine/threonine kinase 1) [NCBI Gene 207] {aka AKT, PKB, PKB-ALPHA, PRKBA, RAC, RAC-ALPHA}, INS (insulin) [NCBI Gene 3630] {aka IDDM, IDDM1, IDDM2, ILPR, IRDN, MODY10}
- **Diseases:** Microcirculatory Dysfunction (MESH:D006331), Hyperglycemia (MESH:D006943), metabolic disorder (MESH:D008659), Ischemia (MESH:D007511), hypertension (MESH:D006973), hypertriglyceridemia (MESH:D015228), DM (MESH:D003920), diabetes complications (MESH:D048909), ED (MESH:D014652), hyperinsulinemia (MESH:D006946), insulin resistance (MESH:D007333), type 1 and 2 diabetic (MESH:D003924), inflammatory (MESH:D007249), Microvascular dysfunction (MESH:D017566), reperfusion lesions (MESH:D015427), ventricular stiffness (MESH:C566112), cardiovascular failure (MESH:D006333), petechiae (MESH:D011693)
- **Chemicals:** NaCl (MESH:D012965), ACh (MESH:D000109), SNP (MESH:D009599), water (MESH:D014867), Pentobarbital (MESH:D010424), triglycerides (MESH:D014280), HCO3 - saline (-), N2 (MESH:D009584), Histamine (MESH:D006632), Fructose (MESH:D005632), copper (MESH:D003300), Cornstarch (MESH:D013213), zinc (MESH:D015032), F (MESH:D005461), KCl (MESH:D011189), Glucose (MESH:D005947), alpha-Tocopherol (MESH:D024502), CaCl2 (MESH:D002122), L-Cystine (MESH:D003553), manganese (MESH:D008345), Vitamin E (MESH:D014810), FITC-dextran (MESH:C015219), HEPES (MESH:D006531), reactive oxygen species (MESH:D017382), CO2 (MESH:D002245), streptozotocin (MESH:D013311), MgSO4 (MESH:D008278), lipid (MESH:D008055), free radical (MESH:D005609), sugar (MESH:D000073893), C (MESH:D002244), selenium (MESH:D012643), mineral (MESH:D008903), Sucrose (MESH:D013395), Choline (MESH:D002794), Fiber (MESH:D004043), cholesterol (MESH:D002784), Soybean oil (MESH:D013024), NaHCO3 (MESH:D017693), Heparina (MESH:D006493), Tert-butylhydroquinone (MESH:C018855), alpha-chloralose (MESH:D002698), NO (MESH:D009569), BH4 (MESH:C003402),  (MESH:D013549),  (MESH:D000975)
- **Species:** Cricetinae (hamsters, subfamily) [taxon 10026], Homo sapiens (human, species) [taxon 9606], Rattus norvegicus (brown rat, species) [taxon 10116], Cricetus cricetus (black-bellied hamster, species) [taxon 10034], Mesocricetus auratus (golden hamster, species) [taxon 10036]

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## References

52 references — full list in the complete paper: https://tomesphere.com/paper/PMC4526657/full.md

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Source: https://tomesphere.com/paper/PMC4526657