All of us know broccoli when we see it but how many of us know what broccoli sprouts are? I know I didn’t grow up eating them and have been surprised to find out the amazing health benefits of this little but powerful veggie. And this isn’t the only veggie that has the magic….
Why Should I Care About Sulforaphane?
I know, I know, why should you care about sulforaphane? Well, it just so happens that it is VITAL. Some of its most important jobs are enhancing brain function, promoting healthy weight, autism, reducing the risk of cancer, neurological diseases, diabetes, and heart disease. Sulforaphane is an organosulfate that provides valuable sulfur that is the building block of so many reactions in our body. Sulforaphane is antioxidant, antimicrobial, anticancer, anti-inflammatory and neuroprotective. Lots of great reasons to understand this powerful compound!
Dr. Thomas W Kensler described it as “the most potent naturally occurring inducer of Nrf2 signaling.”
What sulforaphane does is activate and up regulate certain genetic pathways or transcription factors, like Nrf2. Nrf2 is a transcription factor that affects what genes are turned on or off. When I began to see this published in medical journals, I was really impressed. Everyone is beginning to see how nutrition CAN target genes (better known as nutrigenomics) and can therefore, prevent against common killers like cancer. In fact, sulforaphane has been found to be effective against several types of cancer! More and more evidence shows that it is also acts against cancer on several levels, from development to progression. In a study published in Cancer Therapy in May 2010, sulforaphane was found to inhibit breast cancer stem cells. Not even chemotherapy can inhibit cancerous stem cells.
Sulforaphane has shown a potential therapeutic role for protection of cells from DNA damage. It also showed that it could induce modulation of the cell, meaning death if the cell was diseased or old, or protection against cancer and proliferation of cancer cells. In fact, one study out of Harvard demonstrated signifiant improvement in autistic children treated with sulforaphane. They showed an improvement in social interaction, abnormal behavior, and verbal communication.
As previously mentioned, sulforaphane helps to activate Nrf2. It has been shown to be protective against cancer and can modify genes associated with chemoprevention. It does this by ramping up cellular defense mechanisms and detoxification pathways. Basically this little Nrf2 factor turns on genes that activate our cellular military. Their job is to go out and patrol our tissues, blood, organs and each cell to make sure everything is running smoothly with no mutiny anywhere in the body.
Where Do I Get Sulforaphane?
Broccoli, cauliflower, bok choy, Brussels sprouts, and cabbage are all rich in what is known as sulforaphane. In fact, all cruciferous vegetables contain sulforaphane! But it doesn’t just happen to occur naturally in plants.
Sulforaphane is only created when the plant is damaged as a stress mechanism. An enzyme called myrosinase is released that then reacts with another compound called glucoraphanin. The result is sulforaphane. You may be wondering how this is a defense mechanism for the plant? Well sulforaphane is actually toxic in high doses, even in humans, especially if large quantities of cruciferous vegetables are eaten raw. So chewing or chopping up the vegetables trigger them to release sulforaphane.
Can I Eat Cruciferous Vegetables If I Have Thyroid Dysfunction?
Trust me when I say that cruciferous vegetables do not CAUSE thyroid dysfunction. In small and normal quantities, sulforaphane creates a hormetic effect. Remember the poison is in the dose in the natural world concerning herbs, so called poisons and foods. Sometimes, as in the case of sulforaphane, we can gain beneficial effects from something that would be toxic in higher doses. Everything in moderation!
In high doses or if cruciferous veggies are eaten predominantly raw in someone who is susceptible to thyroid disease, goitrins can form in the body. These goitrins interfere with the production of normal thyroid hormones, leading to hypothyroidism. The trade off with this is that cooking the cruciferous veggies past 138 degrees Fahrenheit deactivated the enzyme that helps to make sulforaphane. So the best way to get a satisfactory dose is by eating it raw in small amounts or by eating broccoli sprouts.
One thing you can do to prevent any negative effects from goitrins is to take adequate doses of iodine and selenium. Plus sulforaphane is pretty powerful-you only have to eat 3-5 servings per week to see the anticancer benefits! In fact, one study found that “dose” reduced the cancer risk by 30-40%.
The Highest Dose of Sulforaphane
Now that you know about sulforaphane, you may be wondering what the best source is and how much you need to reap the wonderful benefits! The highest dose is found in vegetables that are more immature and the content actually weans as the plants mature. Thats why young broccoli sprouts have a much higher content than just regular broccoli. They contain 10-100 times the level of glucoraphanin and sulforaphane. This little vegetable is really the panacea of healing.
There are supplements with sulforaphane and broccoli sprouts, but I always believe if you can get the nutrition from food, or the most natural way possible, it is much more bioavailable or absorbable. Try adding broccoli sprouts to your salad or even smoothie every week. Remember you only need 3-5 servings a week to ensure you’re getting the detox, anticancer and immune benefits. Don’t forget to speak with your trusted healthcare professional if you have a thyroid disorder prior to gobbling up too many cruciferous vegetables!
Way to be your own best doctor!
Exposure of primary mouse hepatocytes to sulforaphane resulted in activation of Nrf2 and significant elevation of protein expressions responsible for excretion of arsenic into extracellular space. SFN has the ability to potentially excrete heavy metals like arsenic.
4.Sulforaphane and other Nutrigenomics Nrf2 Activators: Can the Clinician’s Expectation Be Matched by the Reality? www.ncbi.nlm.nih.gov/m/pubmed/26881038/