MethylTetraHydroFolate Reductase (MTHFR)
What is Folate, methylfolate and MTHFR gene?
Folic acid is the man-made form of folate. Folate is a B-vitamin naturally found in some foods and our bodies need it to form healthy cells. For it to do its job, the most common form of folate in supplements and fortified foods must be converted to its active form, methylfolate, to be used by the body. But, not everyone is born equal, as far as methylation is concerned. In fact, as much as 70% (in the US) inherit a defective or partially defective gene that lacks the enzyme needed to convert folate, this is the methylenetetrahydrofolate reductase (MTHFR) gene. The problem lies in the fact that almost half of all people have genetic variations that reduce the ability of the MTHFR enzyme to make this conversion.
For people with MTHFR gene variations, supplementing with the already activated form of folate (5-MTHF) is far more effective than introducing the pre-converted form to the body through typical folate supplements. L-Methylfolate (5-MTHF) supplements provide the active form of folate naturally present in the body and available for biological action.
Who is at risk for MTHFR gene problems?
- Depressed patients are thought to be at risk for MTHFR polymorphisms because would have lower serum L-methylfolate and thus lower CNS folate---thus lower monamine levels (serotonin, dopamine, NE)
- Hispanic and Italian population
- All of us...
Conditions that treating methylation has helped
- Depression (Deplin)
- Anxiety (Deplin)
- Memory Loss (CerefolinNAC)
- Diabetic neuropathy (MetaNX)
- High Risk Pregnancies (Neevo, NeevoDHA, Thorne Prenatal)
- Chronic Fatigue
- Irritable Bowel
- Bipolar, Schizophrenia, Parkinson’s
- Autism, Autism spectrum disorders
- Prevention of Birth Defects
Learn more from Dr. Neil Rawlins
Additional MTHFR materials:
- MTHFR & AUTISM June 23, 2015 Powerpoint
- Arizona State University Autism/Aspergers Research Program: Summary of Dietary, Nutritional, and Medical Treatments for Autism - based on over 150 published research studies.
- Genetic Polymorphism Related to Oxidative Stress in Autism by Hee Jeong Yoo
- The Redox/Methylation Hypothesis of Autism by Richard C. Deth, PhD
- Dr. Rawlins video presentation on MTHFR & Memory, October 23, 2012
- MTHFR & Neuropathy Handouts
- Listen to Dr. Rawlins talk about MTHFR on BlogTalkRadio
- MTHFR HANDOUT REVISED, December 31, 2014
- MTHFR & DEMENTIA Powerpoint Slides, March 28, 2014
- MTHFR - General Overview Powerpoint Slides July 18, 2014
- MTHFR with Dr. Karlson, Powerpoint, August 18, 2015