Dietary walnuts inhibit colorectal cancer growth in mice by suppressing angiogenesis.
Study Goal
The researchers aimed to evaluate the effect of dietary flaxseed oil on colorectal cancer growth in vivo and compare its efficacy to walnuts.
Results Summary
Flaxseed oil significantly reduced tumor growth rate by 43% and final tumor weight by 44% compared to the control. It also decreased serum angiogenesis factors and increased necrotic areas in tumors.
Population
6-week-old female nude mice injected with HT-29 human colon cancer cells.
Effective Dosage
~19% of total energy from flaxseed oil.
Duration
25 days.
Interactions
None mentioned.
| Intervention | Direction | Endpoint | Population | Dosage | Impact | Claim # |
|---|---|---|---|---|---|---|
dietary supplementation with flaxseed oil | decrease | colorectal cancer growth | - | - | inhibits | #1 |
walnuts | decrease | colon cancer cells | in vitro | - | have strong antiproliferative properties against | #2 |
walnuts | decrease | tumor growth rate | walnut-fed mice | 27% | significantly slower | #3 |
flaxseed oil | decrease | tumor growth rate | flaxseed-fed mice | 43% | significantly slower | #4 |
walnuts | decrease | final tumor weight | walnut-fed mice | 33% | reduced | #5 |
flaxseed oil | decrease | final tumor weight | flaxseed-fed mice | 44% | reduced | #6 |
walnuts | no change | metabolic and hormonal profile | walnut-fed mice | - | no differences | #7 |
flaxseed oil | no change | metabolic and hormonal profile | flaxseed-fed mice | - | no differences | #8 |
walnuts | no change | serum antioxidant capacity | walnut-fed mice | - | no differences | #9 |
flaxseed oil | no change | serum antioxidant capacity | flaxseed-fed mice | - | no differences | #10 |
walnuts | no change | inflammation | walnut-fed mice | - | no differences | #11 |
flaxseed oil | no change | inflammation | flaxseed-fed mice | - | no differences | #12 |
walnuts | decrease | serum expression levels of angiogenesis factors, including vascular endothelial growth factor | walnut-fed mice | 30% | significantly reduced | #13 |
flaxseed oil | decrease | serum expression levels of angiogenesis factors, including vascular endothelial growth factor | flaxseed-fed mice | 80% | significantly reduced | #14 |
walnuts | increase | total necrotic areas | walnut-fed mice | approximately doubled | approximately doubled | #15 |
flaxseed oil | increase | total necrotic areas | flaxseed-fed mice | approximately doubled | approximately doubled | #16 |
dietary walnuts | decrease | angiogenesis (CD34 staining) | walnut-fed mice | - | significantly decreased | #17 |
flaxseed oil | no change | angiogenesis (CD34 staining) | flaxseed-fed mice | - | did not reach significance | #18 |
walnuts in the diet | decrease | colorectal cancer growth | - | - | inhibit | #19 |
walnuts in the diet | decrease | angiogenesis | - | - | suppressing | #20 |
OBJECTIVE: Animal studies have demonstrated that dietary supplementation with flaxseed oil inhibits colorectal cancer growth. Recent data indicate that walnuts have strong antiproliferative properties against colon cancer cells in vitro but no previous study has assessed the effects of walnuts in vivo or performed a joint evaluation of flaxseed oil and walnuts. The aim of the present study was to examine the effect of dietary walnuts on colorectal cancer in vivo and to comparatively evaluate their efficacy in relation to flaxseed oil. METHODS: HT-29 human colon cancer cells were injected in 6-wk-old female nude mice. After a 1-wk acclimation period, mice (n = 48) were randomized to diets containing ∼19% of total energy from walnuts, flaxseed oil, or corn oil (control) and were subsequently studied for 25 d. RESULTS: Tumor growth rate was significantly slower in walnut-fed and flaxseed-fed mice compared with corn oil-fed animals (P < 0.05) by 27% and 43%, respectively. Accordingly, final tumor weight was reduced by 33% and 44%, respectively (P < 0.05 versus control); the differences between walnut and flaxseed diets did not reach significance. We found no differences among groups in metabolic and hormonal profile, serum antioxidant capacity, or inflammation (P > 0.05). However, walnuts and flaxseed oil significantly reduced serum expression levels of angiogenesis factors, including vascular endothelial growth factor (by 30% and 80%, respectively), and approximately doubled total necrotic areas despite smaller tumor sizes (P < 0.05 versus control). Dietary walnuts significantly decreased angiogenesis (CD34 staining; P = 0.017 versus control), whereas this effect did not reach significance in the flaxseed oil group (P = 0.454 versus control). CONCLUSION: We conclude that walnuts in the diet inhibit colorectal cancer growth by suppressing angiogenesis. Further studies are needed to confirm our findings in humans and explore underlying mechanisms.