Last updated on

Can the MTHFR gene affect fertility and pregnancy?

The simple answer to that question is yes! 

MTHFR can affect fertility in both men and women and also affect the resulting pregnancy. Men and especially women who find they have an MTHFR “mutation” will want to discuss with their doctors the advantages of supplementing with methyl folate rather than folic acid. This is the case because those with reduced MTHFR activity may not be able to convert folic acid into a bioactive form the body can use. 

So, what is MTHFR?

MTHFR is a gene (5-methyltetrahydrofolate) which breaks-down folic acid into folate via an enzyme called methylenetetrahydrofolate reductase, which plays a crucial role in processing amino acids, the building blocks of proteins.11

The MTHFR gene is located on chromosome 1 and we inherit two copies of the gene one from each parent. When there is some variation in DNA sequencing, the result is a “mutation” often referred to by scientists as single nucleotide polymorphisms (SNPs). The SNPs in the MTHFR gene decrease enzyme activity and this in turn affects a number of biochemical processes.10 Some of the main conditions known to be caused due to MTHFR SNPs include hyperhomocysteinemia (elevated homocysteine), cardio-vascular health, birth defects, miscarriage, preeclampsia, cancer risk and increased chronic disease risk.10

There are many MTHFR variants identified to date, however, the two most studied variants are 677C>T (C667T also called rs1801133) and 1298A>C (A1298C also called rs1801131). The C677T allele is the most studied variant and about 50% of the population may have 1 copy – which makes them heterozygous while up to 25% may have inherited two copies which makes them homozygous.1011

How MTHFR impacts male and female fertility

As mentioned above, we inherit two copies of the MTHFR gene (one from each parent) hence if we have two copies of C677T – we are homozygous and in this case since both copies are defective we are at a higher risk for miscarriages, preeclampsia, or a baby born with birth defects. In men, there is a higher risk of sperm malformations.

Similar situation is if we have one copy of C677T and one A1298C we are heterozygous in this instance, because we carry two different types of SNPs, however we still have similar chance or possibly slightly lower than that of having two C677T gene changes. The frequency of the C677T SNP varies significantly between ethnic populations. It is found to be more common among Italians, Hispanics, and Asians than in Caucasians and Africans. The A1298C SNP is not studied as extensively as C677T hence the population frequency it is not well documented.11

As was discussed in the Gene Food podcast episode on MTHFR, folate and B2 are two nutrients linked to supporting MTHFR function. B2 because it’s a cofactor for the MTHFR gene to work, and folate because decreased MTHFR activity stifles the body’s ability to process dietary folate into the bioactive form, called methyl folate.

In those who have MTHFR SNPs, folic acid can become toxic as it has the tendency to pool rather than be converted into the methyl folate the body can use.

What is the difference between Folic Acid and Folate?

Folate and Folic acid are both vitamin B9 – however folic acid is the synthetic form of vitamin B9. 

It is crucial to know the difference between these two nutrients. 

Folate it is found in abundance in green leafy food (Folate – comes from the Latin word “folium,” which means leaf) whereas folic acid is synthetic production of vitamin B9, and we usually find it in the form of supplements.

Folate is abundant in dark, leafy green vegetables including kale, broccoli, spinach and asparagus are excellent sources of folate.1

 If you are not vegan or vegetarian the best source for B9 in food is beef liver which contains 215 Micrograms (mcg) per serving – (3 ounces).1

Can Folic Acid Increase Fertility and How does MTHFR relate to fertility?

If you are trying to get pregnant and you are above 30 years old  your doctor will advise you to take folic acid to prevent birth defects in your baby. Apart of avoiding birth defects, folic acid is shown to play an important role in improving fertility and your chances of conceiving. 

Many research studies have shown that folic acid is important in fertility and healthy reproduction as it improves a number of factors crucial to fertility namely reducing risk of miscarriage, better implantation results and egg quality in females whereas in men it improves the motility, morphology and total sperm count. This is because folate has been shown to be important for spermatogenesis as it has a crucial role in the synthesis, repair and methylation of DNA.9

In the USA and Europe there are requirements in place to fortify certain foods with folic acid because it has shown that it reduces neural tube defects by around 60%.

In women, folic acid supplementation improves fertility because it: 

  • Improves ovulation and reduces infertility by 59%.2
  • In addition it decreases miscarriage risk.2

In women undergoing IVF treatment, folic acid supplementation improved: 

  • In vitro fertilization – IVF success rates.3
  • Quality and quantity of eggs retrieved during IVF.23
  • Anti-Müllerian Hormone – AMH levels.23

In men, folic acid supplementation improved: 

  • Sperm concentration.4
  • Motility and morphology.4
  • Semen quality.4

MTHFR and choosing a folate Supplement

Between 1 in 4 and 1 in 5 couples are affected by fertility problems and these problems are equally distributed between males and females.12

Some studies have established a clear link between high levels of oxidative stress and methylation defects with a strong negative impact on sperm quality.12 Several meta-analysis studies show that MTHFR SNPs, particularly the C677T variant, is associated with male infertility.12

As we have already discussed above, folic acid metabolism is crucial to the process of DNA stability and repair. People who have one copy of the MTHFR 677C>T variant have only 65% enzyme activity and the ones who have two copies have two thirds of the enzyme activity decreased.12 These carriers may not be able to handle folic acid in supplements and fortified foods. 

Hence, knowing your genetic background and risk for folate deficiency may facilitate your treatment to conceive successfully.

In many studies has been shown that:

  • Women who are homozygote for C667T, have nearly double the risk of miscarriage.3
  • Women who are heterozygote or homozygote for A1298C, had an increased risk of miscarriage by 59%.3

Whereas women undergoing IVF treatment:

  • Homozygous for C667T, show double the risk for having recurrent implantation failure during IVF.5
  • Homozygous for C667T is also associated with higher AMH concentrations as well as 20% less eggs during IVF.6
  • Heterozygous or homozygous for A1298C showed a higher risk of premature ovarian failure (POF).7

…so, what to do about it?

So far, we learned that MTHFR is linked to an increased risk of several factors related to fertility in men and women, these risks are reduced by getting folate according to doctors’ recommendations. 

The effect of these mutations in MTHFR can be overcome with a rich folate diet and supplements. 

Attention please! It’s important to stress the fact that I am recommending folate and not folic acid. This is because for people who have mutations in the MTHFR gene high levels of folic acid are not recommended and some studies show that it can build up in the body and have negative effects.8 Thus, make sure to discuss with your doctor before you get the prenatal vitamins. 

For women and men with MTHFR variant will be advised to take methylfolate or 5-MTHF which is the active form of folate.

For more, see this piece on whether mothers with MTHFR SNPs should be supplementing with folic acid.

Amisa Mukaj

Amisa is a health enthusiast and researcher. She holds a BSc. in Genetics and an MSc. in Advanced Biological Sciences from the University of Liverpool, UK. She is currently a PhD candidate studying at Charles University in Prague.

The very latest on genetics, nutrition and supplements delivered to your inbox!

Facebook icon Twitter icon Instagram icon Pinterest icon Google+ icon YouTube icon LinkedIn icon Contact icon Info icon