Can NMN Revolutionize Bone Health? Uncover Its Surprising Benefits!

Bone diseases often reveal their devastating effects only after a severe fracture. In the U.S., 1.5 million osteoporotic fractures annually lead to over half a million hospitalizations, with hip fractures being the most alarming. The economic burden is substantial, with direct care costs ranging between $12 to $18 billion in 2002, and the impact on personal well-being is profound. Many affected individuals experience pain, reduced mobility, and psychological distress.

Amid these challenges, Nicotinamide Mononucleotide (NMN) stands out as a promising candidate in bone health research. This article will:

  • Explore NMN's role in bone health.
  • Investigate the potential benefits of NMN supplementation for bone diseases.

  • Summarize recent insights on NMN's efficacy in bone preservation.

 

Our goal is to spotlight NMN's prospective benefits in the complex world of bone health. 

What Are Bone Disorders? 

From the fragility of osteoporosis to the disrupted renewal in Paget's disease, our bones face numerous challenges. Osteonecrosis hampers bone blood supply, whereas osteoarthritis erodes joint surfaces. Infections might inflame bones, leading to osteomyelitis, while fibrous dysplasia weakens them by substituting regular bone with scar-like tissue. Conditions like osteomalacia and rickets soften bones, with adults and children being susceptible, respectively. Moreover, autoimmune conditions such as Type I diabetes or rheumatoid arthritis might unexpectedly weaken our skeletal system.

These issues can spring from diverse origins—our genes, the inevitable march of time, our daily meals, or even the way we live. And the signals they send vary, from barely noticeable aches to debilitating fractures.

Eager to delve deeper into these challenges and discover the promising role of NMN in fortifying our bones? Journey with us to the next section. [1] 

The Science Between NMN and Bone Health 

Recent research is shining a spotlight on NMN's crucial contributions to bone health. From labs in China to the vastness of space, NMN is proving its mettle in maintaining and repairing our skeletal system. 

Let's delve into its diverse potential—from reinforcing bones and rejuvenating aging cells to assisting astronauts in preserving bone density. Join us as we explore the expansive scope of NMN in bone well-being.

Bone Repair Needs NMN

When we break a bone, special cells in our bone marrow help to fix it. Sometimes, though, the healing doesn't happen as it should because these cells aren't working correctly.

In a study published in Stem Cell Research & Therapy in 2022, scientists at Sichuan University in China found out that a molecule called NAD+ is essential for these special cells to do their job in fixing bones. The main way to get NAD+ in our body is from NMN.

In their experiments, they found that when they increased NAD+ levels, bones healed better. But when they lowered NAD+ levels, bone healing slowed down. They saw these results in both cells in the lab and in live mice.

The researchers also found that providing NMN helped in the bone repair process, especially when the regular way to produce NAD+ was blocked.

Other studies have suggested that NMN might be helpful for older bones and might even help with conditions like osteoporosis. So, there's hope that NMN could be used to help bone healing in people in the future. [2] 

NMN Helps Bone Cells Stay Younger

As we get older, our bones don't renew as easily. This is because the special cells that make new bone cells change and can't do their job as well. When these cells change too much, our bones become weaker and can break more easily. This condition is known as osteoporosis. There's a way to check how strong or weak someone's bones are, and it's called the Frailty Index.

Scientists have been trying to find ways to keep these special bone-making cells young. One way might be using NMN.

In a study from Tianjin Medical University published in Aging Cell in 2022, scientists studied these special bone-making cells from young and old people. They treated these cells with NMN and found that NMN made the older cells act more like young cells again.

One interesting thing they found was that as people age, a protein named NAP1L2 increases in their cells. This protein seems to make the bone cells older. But when they added NMN to the cells, this protein didn't act as strongly. This means NMN might help keep bones stronger as people get older.

Another study also found that when older people have more of the NAP1L2 protein, their bones are weaker. So, NMN might be a way to help older people have stronger bones and feel better overall. More studies are needed, but this could be a way to help people stay healthier as they age. [3] 

NMN Might Help Strengthen Bones

In a study published in Cell Death & Disease in 2019, scientists from Sun Yat-Sen University found that NMN can help mice build stronger bones by turning special cells into bone cells, not fat cells. Their research might show a new way to treat osteoporosis, where bones become weak.

A lot of older people, especially women, have osteoporosis. It's sometimes called the “silent disease” because many people don't know they have weak bones until they break one.

In their study, the scientists also exposed mice to something that makes their bones weak, like osteoporosis. They found that NMN helped these mice have stronger bones, similar to healthy mice.

The researchers believe that NMN could be a great way to help people have stronger bones as they get older. [4] 

NMN Might Help Astronauts Keep Strong Bones in Space

When astronauts come back from space, they often have weaker bones that can break easily. This problem is called osteopenia. In space, astronauts try to keep their bones strong by taking calcium and vitamin D and doing lots of exercise. But, these methods don't work very well, so scientists are looking for better ways to help astronauts.

In a study published in Cell Stress and Chaperones in 2023, researchers in China have found that NMN might help. They tested it on rats, using a special method that makes the rats' bones act like they've been in space. This method involved lifting rats by their tails so that their back legs didn’t touch the ground. This way, they could study how not using bones affects their strength.

The rats that were lifted for four weeks had weaker bones. But when they were given NMN, their bones got stronger again. The study showed that NMN does this by increasing NAD+ in the bones. Also, NMN reduces harmful stress on the bones, which can make them weak.

Now, because NMN has been shown to be safe, scientists think it might be a good idea to test it on astronauts in the International Space Station. They could check if NMN helps keep astronauts' bones strong in space. [5] 

NMN Might Help Patients with Weak Bones Due to Medicine Use

Some patients take medicines, like dexamethasone and hydrocortisone, to treat problems like inflammation and autoimmune diseases. A side effect of these medicines can be weak and brittle bones or osteoporosis. When doctors look at the bones of these patients under a microscope, they look like they have tiny holes in them.

In a study published in Molecular Medicine Reports in 2020, scientists from Nanchang University in China found that NMN might help these patients. They did an experiment with special cells that help in bone formation. They noticed that when they treated these cells with dexamethasone, the cells weren't able to make new bones well. But, when they added NMN to the mix, the cells started to behave normally again.

They think NMN works because it boosts NAD+. This molecule helps a protein named sirtuin 1 (SIRT1) work properly. When SIRT1 works well, it helps in making bones. In fact, when they turned down SIRT1 in some cells, NMN couldn't help them make bones. 

In simple words, the research suggests that NMN might help patients taking dexamethasone or similar medicines by boosting bone-making activity in their bodies, and SIRT1 plays a big role in this process. [6] 

NMN Might Help Protect Bones from Harm Caused by Aluminum

Aluminum is found in many everyday items and can be harmful to our bones. It's in some medicines, makeup, and food, and can also get into our water and food from the environment. Too much aluminum can cause problems with our bones, like osteoporosis.

Scientists are trying to understand exactly how aluminum harms our bones. Some believe it causes problems in our cells that lead to bone damage. NMN might help our cells fight against this damage. In a study published in Toxicology and Applied Pharmacology in 2019, scientists gave NMN to rats that had been exposed to aluminum. They found that the rats' bones were healthier than those that didn't get NMN.

This research suggests NMN helps bones in two main ways. First, it helps fix the energy balance in cells. Cells need a kind of energy, NAD+, to work properly, and aluminum seems to reduce this energy. NMN helps restore it. Second, NMN reduces harmful reactions in cells. When cells are exposed to aluminum, they can start harmful reactions that can damage bones. NMN seems to reduce these harmful reactions.

In short, NMN might be a way to protect our bones if we've been exposed to too much aluminum. However, more research is needed to be sure. [7] 

Conclusion

In the pursuit of better bone health, Nicotinamide Mononucleotide (NMN) has emerged as a noteworthy contributor. Our exploration highlights NMN's role in enhancing bone density, facilitating repair, and combating age-related decline.

Embracing this scientific advancement, HealthspanX Ultra Pure NMN™ offers a high-quality, effective supplement, making it a strategic choice for those looking to support their bone health. As we continue to navigate the complexities of bone wellness, incorporating NMN into our daily regimen stands out as a promising and practical approach.

Citations

  1. Office of the Surgeon General (US). Bone Health and Osteoporosis: A Report of the Surgeon General. Rockville (MD): Office of the Surgeon General (US); 2004.
  2. Li B, Shi Y, Liu M, Wu F, Hu X, Yu F, Wang C, Ye L. Attenuates of NAD+ impair BMSC osteogenesis and fracture repair through OXPHOS. Stem Cell Res Ther. 2022 Feb 22;13(1):77. doi: 10.1186/s13287-022-02748-9. PMID: 35193674; PMCID: PMC8864833.
  3. Hu M, Xing L, Zhang L, Liu F, Wang S, Xie Y, Wang J, Jiang H, Guo J, Li X, Wang J, Sui L, Li C, Liu D, Liu Z. NAP1L2 drives mesenchymal stem cell senescence and suppresses osteogenic differentiation. Aging Cell. 2022 Jan 15:e13551. doi: 10.1111/acel.13551. Epub ahead of print. PMID: 35032339.
  4. Song J, Li J, Yang F, et al. Nicotinamide mononucleotide promotes osteogenesis and reduces adipogenesis by regulating mesenchymal stromal cells via the SIRT1 pathway in aged bone marrow. Cell Death Dis. 2019;10(5):336. Published 2019 Apr 18. doi:10.1038/s41419-019-1569-2
  5. Huang Y, Dou Y, Yang B, He B, Zhang X, Zhang K, Yang X. Nicotinamide mononucleotide supplementation mitigates osteopenia induced by modeled microgravity in rats. Cell Stress Chaperones. 2023 May 17. doi: 10.1007/s12192-023-01356-7. Epub ahead of print. PMID: 37195399.
  6. Huang RX, Tao J. Nicotinamide mononucleotide attenuates glucocorticoid-induced osteogenic inhibition by regulating the SIRT1/PGC-1α signaling pathway. Mol Med Rep. 2020;22(1):145-154. doi:10.3892/mmr.2020.11116
  7. Haipeng Liang, Jian Gao, Chi Zhang, Chunlin Li, Qi Wang, Jiaojiao Fan, Zizheng Wu, Qiugen Wang. Nicotinamide mononucleotide alleviates Aluminum induced bone loss by inhibiting the TXNIP-NLRP3 inflammasome. Toxicol Appl Pharmacol, 2019; DOI: 10.1016/j.taap.2018.10.006.