Vitamin D may help protect you against one of the deadliest types of cancer

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Vitamin D is a class of fat-soluble secosteroids that improve the intestinal absorption of calcium, magnesium and phosphate, among others.

Vitamin D may effectively block a key pathway used by ovarian cancer

Of all cancers, ovarian cancer has one of the highest mortality rates. This is due, in part, to cancer’s ability to turn the body’s defenses against itself. However, recent research from Nagoya University, published in the journal Matrix Biology, indicates that vitamin D may be able to successfully block one of the main pathways used by this cancer.

Ovarian cancer often undergoes a process called peritoneal metastasis. Its cells make their way to a secondary implantation site, such as the peritoneal wall or the diaphragm, throughout this process after detaching from their primary site in the ovary. The peritoneum protects against this process by forming a barrier of mesothelial cells that prevent cancer cells from adhering and spreading. However, ovarian cancer bypasses this barrier by converting protective mesothelial cells into cancer-associated mesothelial cells. By promoting an environment that promotes metastasis, the ability of cancer to metastasize and spread throughout the body is enhanced.

Ovarian Cancer Chart

Suppression of ovarian cancer by restoration of peritoneal mesothelial cells. 1 credit

The team, led by Dr. Masato Yoshihara from the Department of Obstetrics and Gynecology at[{” attribute=””>Nagoya University Graduate School of Medicine, in association with colleagues at the Bell Research Center and the Department of Pathology, discovered that vitamin D not only hindered this process but also returned cancer-associated mesothelial cells to their initial state. This process improved the mesothelial cells’ capacity to act as barriers, limiting the spread of the cancer. Their research implies that adding vitamin D therapy to the treatment of ovarian cancer could be helpful.

“We showed the potential of vitamin D for normalizing cancer-associated mesothelial cells, which is the first study of this kind,” said Dr. Kazuhisa Kitami, the first author of the study. “This study’s most interesting point is that in situations where early detection of ovarian cancer is still extremely difficult, we showed that the peritoneal environment can be restored to its normal state where it prevents the adhesion and growth of cancer cells.”

Vitamin D can do this because of the complicated way cancer spreads. Previous studies found that cancer cells secrete a protein called TGF-β1, which is associated with cell growth. This also increases the amount of another protein, thrombospondin-1, through the TGF-β/Smad pathway. Thrombospondin-1 has long interested researchers of ovarian cancer because it is found in higher amounts in the later, more deadly stages of cancer. In ovarian cancer, thrombospondin-1 is a key protein that enhances the adhesion and proliferation of ovarian cancer cells to the peritoneum. As vitamin D disrupts the TGF-β/Smad pathway, it may prevent cancer.

Dr. Kitami explains: “The administration of Vitamin D helps normalize the peritoneal environment. This suggests that the combination of Vitamin D and conventional remedies can enhance their therapeutic efficacy for ovarian cancer. We think this helps prevent the adhesion of cancer cells to the peritoneum, which may make it possible to prevent the recurrence of ovarian cancer.”

The potential of a vitamin to combat a cancer that affects one in 75 women remains an exciting prospect, especially since it does so by restoring the natural defenses of the body. The creation of therapies using this research could offer new ways to combat the high death rate of ovarian cancer.

This study was supported by the Japan Society for the Promotion of Science (JSPS) Grant-in-Aid for Scientific Research (19H03797, 20K03824, 21K16788).

Reference: Kazuhisa Kitami, Masato Yoshihara, Satoshi Tamauchi, Mai Sugiyama, Yoshihiro Koya, Yoshihiko Yamakita, Hiroki Fujimoto, Shohei Iyoshi, Kaname Uno, Kazumasa Mogi, Yoshiki Ikeda, Akira Yokoi, Nobuhisa Yoshikawa, Kimihiro Nishino, Kaoru Niimi, Akihiro Nawa, Atsushi Enomoto and Hiroaki Kajiyama, 8 April 2022, Matrix Biology.
DOI: 10.1016/j.matbio.2022.03.003

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