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Genetic evidence that mitochondrial oxidative stress drives cancer growth; antioxidants can be used to help prevent & treat it

  [ 8 votes ]   [ Discuss This Article ] • February 16, 2011

“There are already antioxidant drugs out there on the market as dietary supplements, like N-acetyl cysteine.” - Dr. Michael P Lisanti

Cancer researchers have genetic evidence suggesting antioxidant agents currently used to treat lung disease, malaria and even the common cold can also help prevent and treat cancers because they fight against mitochondrial oxidative stress* - a culprit in driving tumor growth.

For the first time, research has shown that loss of the tumor suppressor protein Caveolin-1 (Cav-1) induces mitochondrial oxidative stress in the stromal [connective tissue] micro-environment, a process that fuels cancer cells in most common types of breast cancer. (See the free full-text report, published online Feb 15 by Cancer Biology & Therapy.)

“Now we have genetic proof that mitochondrial oxidative stress is important for driving tumor growth,” says lead researcher Michael P. Lisanti, MD, PhD, professor of cancer biology at Thomas Jefferson University’s Kimmel Cancer Center, Philadelphia.

“This means we need to make anti-cancer drugs that specially target this type of oxidative stress. And there are already antioxidant drugs out there on the market as dietary supplements, like N-acetyl cysteine.”

Lisanti’s lab previously discovered Cav-1 as a biomarker that functions as a tumor suppressor and is the single strongest predictor of breast cancer patient outcome. For example, if a woman has triple negative breast cancer and is Cav-1 positive in the stroma, her survival is greater than 75% at 12 years, versus less than 10% at 5 years if she doesn’t have the Cav-1 protein, according to Dr. Lisanti.

The Jefferson researchers also established Cav-1’s role in oxidative stress and tumor growth; however, where that stress originates and its mechanism(s) were unclear.
To determine this, the team applied a genetically tractable model for human cancer-associated fibroblasts in this study using a targeted sh-RNA knock-down approach. Without the Cav-1 protein, researchers found that oxidative stress in cancer associated fibroblasts leads to mitochondrial dysfunction in stromal fibroblasts.

In this context, oxidative stress and the resulting autophagy (producton of recycled nutrients) in the tumor-microenvironment function as metabolic energy or “food” to “fuel” tumor growth.

The researchers report that the loss of Cav-1 increases mitochondrial oxidative stress in the tumor stroma, increasing both tumor mass and tumor volume by four-fold, without any increase in tumor angiogenesis.

“Antioxidants have been associated with cancer reducing effects - beta carotene, for example - but the mechanisms, the genetic evidence, has been lacking,” Dr. Lisanti said.

“This study provides the necessary genetic evidence that reducing oxidative stress in the body will decrease tumor growth.”

Currently, anti-cancer drugs targeting oxidative stress are not used because is it commonly thought they will reduce the effectiveness of certain chemotherapies, which increase oxidative stress.

“We are not taking advantage of the available drugs that reduce oxidative stress and autophagy, including metformin, chloroquine and N-acetyl cysteine,” Dr. Lisanti said.

“Now that we have genetic proof that oxidative stress and resulting autophagy are important for driving tumor growth, we should re-consider using antioxidants and autophagy inhibitors as anti-cancer agents.”

The diabetic drug metformin and chloroquine, which is used for the prevention and treatment of malaria, prevent a loss of Cav-1 in cancer associated fibroblasts (which is due to oxidative stress), functionally cutting off the fuel supply to cancer cells.

This research also has important implications for understanding the pathogenesis of triple negative and tamoxifen-resistance in ER-positive breast caner patients, as well as other epithelial cancers, such as prostate cancers.

“Undoubtedly, this new genetically tractable system for cancer associated fibroblasts will help identify other key genetic ‘factors’ that can block tumor growth,” Dr. Lisanti said.

* Oxidative Stress - occurs when reactive oxygen species (free radicals) outrun ability to control them, and the imbalance leads to damage of cellular components, including the energy-producing mitochondria. Compared to rust in a tin can.]

Source: Thomas Jefferson University news release, Feb 15, 2011

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