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Reverse Brain Cell Death by Growing New Mitochondria…

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Go to Google and enter “mitochondria” and “neurodegeneration.” You’ll find hundreds of published studies linking the two.

The decay of mitochondria in brain cells is a primary cause of all neurodegenerative disorders, from Parkinson’s to dementia.

This deadly process begins when free radicals inflict damage to nerve cells. But increased antioxidant intake by itself is not enough to halt this degenerative cascade. As one team of scientists stated in a study published in July 2011:

“Once the mitochondria are destabilized, cells are destined to commit suicide. Therefore, antioxidative agents alone are not sufficient to protect neuronal loss in many neurodegenerative diseases.”

The encouraging news is that a novel strategy exists to replenish aging cells by triggering them to grow new mitochondria. The result is that many disorders related to brain aging may be halted and reversed.

In this article, you will discover how a compound called pyrrolo-quinoline quinone or PQQ triggers aging cells to grow new mitochondria. This process, called mitochondrial biogenesis, can prevent age-related cell death that accelerates brain degeneration.

You will also find evidence of PQQ’s power to stimulate nerve growth factor, combat stroke, Alzheimer’s, and Parkinson’s, and speed regeneration of damaged nerve cells.

Mitochondrial Decay and Brain Degeneration

Every human cell contains tiny “organelles” called mitochondria that are essential to life itself. Mitochondria efficiently convert our intake of food and oxygen into clean energy.

Because of their constant exposure to high levels of energy and oxygen, mitochondria are especially vulnerable to damage by oxidative stress. With time, they lose their ability to efficiently manage energy transfer through the flow of electrons. As they become increasingly inefficient, mitochondria accumulate structural and functional damage, which then leads to a vicious cycle of further inefficiency and damage.  Oxidative mitochondrial decay is now recognized as a major contributor to aging.

It is now clear that the brain is a primary target of mitochondrial aging.  As one of the body’s greatest consumers of energy and oxygen, the brain is an organ that is highly vulnerable to mitochondrial decay. That decay is evident in brain tissue as a selective loss of brain cells in areas associated with mobility and with learning and memory, which is why those functions deteriorate most rapidly with aging.

In neurodegenerative diseases such as Alzheimer’s and Parkinson’s disease, mitochondrial dysfunction is associated with abnormal brain cell activity and accumulation of toxic proteins.  Older individuals who suffer strokes, with their impaired brain cell mitochondrial function, have more brain tissue injury and slower, less complete recovery than younger stroke victims.

Even in apparently healthy older people, free of neurodegenerative diseases and strokes, mitochondrial dysfunction in brain cells leaves them with precious little reserve. Evidence strongly suggests that, while aged neurons can function adequately during normal activity, they quickly become vulnerable to the other metabolic stresses of aging.  That’s why a minor illness or minimal trauma can so suddenly lead to massive—and irreversible—loss of cognitive function in an older adult.

There is now solid evidence that if we can prevent mitochondrial decay, or if we can reverse it by stimulating production of new mitochondria, we can slow down the aging process itself.  And just as the brain is a principal target of mitochondrial aging, studies suggest that it also may be a main beneficiary of this “mitochondrial medicine” approach.  That’s why mitochondria-targeted therapies are now captivating specialists in brain aging, cognition, and neurodegenerative diseases.

As it turns out, PQQ provides impressive mitochondria-targeted therapy. Let’s examine the compelling evidence for PQQ’s direct neuroprotective effects in greater detail, in order to understand how supplementing with PQQ can prevent your brain from aging too rapidly.

The Science Behind PQQ’s Brain Anti-Aging Benefits

The most notable ways in which PQQ protects the brain from aging are related to its powerful redox cycling abilities. By far the most robust of the redox cyclers available (either as medications or as nutrients), PQQ potently blunts the deadly effects of reactive oxygen species (ROS) in brain tissue, thereby helping to keep existing mitochondria intact.  There’s strong evidence that PQQ also scavenges existing reactive oxygen species, which offers further promise in reducing the oxidant load on brain mitochondria.

PQQ also stimulates the brain to produce healthy new mitochondria in the process known as mitochondrial biogenesis.3 Mitochondrial biogenesis is a powerful natural response to declining mitochondrial function. The use of “mitochondrial nutrients” such as PQQ that stimulate biogenesis may represent an important stride in preserving youthful brain function.

But PQQ also exerts two additional effects that add to its already-impressive oxidant protection and mitochondrial preservation.

PQQ stimulates natural production of nerve growth factor (NGF) which triggers growth and branching of nerve cells.  Nerve growth factor is vital in repairing damage caused by a stroke, by ischemia (loss of blood flow), or by an injury. In other words, PQQ shows promise in stimulating brain and nerve tissue to heal itself. That’s important both for people who’ve suffered overt injuries (from trauma or strokes), and also for those who’ve suffered the more subtle damage that can lead to so-called multi-infarct dementia.

Treatment with PQQ reduces the impact of excitotoxicity in brain cells. Excitotoxicity occurs when neurons become electrically or chemically over-stimulated. It is one of the underlying causes of many age-related states of cognitive impairment, including Alzheimer’s and Parkinson’s diseases. Excitotoxicity is also associated with certain forms of epilepsy.

PQQ’s powerful redox cycling abilities help it to chemically modify receptors for the most potent excitotoxic neurotransmitter, known as NMDA (N-Methyl-D-aspartic acid).  Under the influence of PQQ, the NMDA receptors literally “quiet down” and stop producing the toxic effects that lead to neuronal dysfunction.  In related actions, PQQ protects against environmental neurotoxicity as well, as in the case of deadly mercury poisoning.

Powerful and Proven Neuroprotection

PQQ’s neuroprotection in the laboratory translates into impressive prevention of age-related cognitive deficits. Here are the compelling data:

Strokes are the third leading cause of death in older Americans, killing nearly 136,000 of us annually, and six million Americans live with the debilitating after-effects of a stroke.  PQQ treatment of stroke in an animal study produced a significant reduction in size of the damaged brain area compared with control treatment—even when given after the stroke was induced.  Another animal study demonstrated significant improvements in neurobehavioral scores following PQQ supplementation after a stroke.

Cognitive decline caused by Alzheimer’s and Parkinson’s diseases robs hundreds of thousands of older Americans of joy and satisfaction in life each year. PQQ protects brain cells from two deadly proteins called beta-amyloid and alpha-synuclein that trigger those conditions.  The result is that fewer brain cells die, and brain function is preserved, brightening the outlook for sufferers of these devastating diseases.

Cognitive decline frequently occurs even in the absence of a diagnosed neurodegenerative condition or a stroke. Recent studies from Japan, where PQQ science is most advanced, show that a PQQ-supplemented diet improves learning ability in healthy animals.  When the animals were subjected to 48 hours of extreme oxidant stress to mimic accelerated aging, the PQQ-supplemented group showed better memory function than the control group, and that improvement was sustained long after the stress.

In a similar study, aged animals (like many aging humans) demonstrated very poor learning ability at baseline.50When supplemented with PQQ, however, the old individuals learned to navigate a maze with ease and retained their knowledge over time much better than did untreated animals, which showed a memory loss of about 60%.

PQQ’s neuronal benefits are not limited to cognitive factors, however. They also apply to other common age-related problems such as seizures and peripheral nerve injury.

Seizures occur with increasing frequency as our brains age and can be responsible for physical injury as well as neurological deficits.  By combating the seizure-inducing excitatory effects of the NMDA neurotransmitter, PQQ suppresses spontaneous seizure activity and shortens duration of chemically induced seizures in animals. Importantly, PQQ achieves this effect without inhibiting normal NMDA receptor performance or baseline behavior.

Damage to spinal and peripheral nerves causes substantial loss of function in older adults, the result of major or minor trauma and bony degeneration of the spinal column. Such functional losses lead to decreased mobility, impaired bowel and bladder function, loss of sexual enjoyment, and early death from complications.  Dramatic results have been achieved in animals that capitalize on PQQ’s stimulation of nerve growth factor production and secretion. PQQ-induced nerve growth factor stimulation accelerates growth of cells that produce nerve cells’ vital insulating sheaths and speeds natural repair of damaged nerves.  In one study, a one-centimeter gap in the sciatic nerve underwent rapid healing after treatment with PQQ, demonstrating improved nerve conduction velocity, strength of the nerve impulse, and increased numbers of nerve cells inside the sheath.

Improving Immunity and Cardiovascular Health

PQQ’s remarkable anti-aging benefits are not restricted to the brain.  Emerging science is demonstrating remarkable effects on two other systems vital to your longevity: the heart and the immune system.

Mitochondria make up an astonishing one-third of the mass of the human heart.    Reliable quality control of cardiac mitochondria is therefore a major new target in preventing heart disease.  PQQ is a highly effective cardioprotective agent as a result of its free radical scavenging and mitochondrial protecting characteristics.

PQQ treatment either before or after experimentally induced heart attacks in animal models has multiple beneficial effects. PQQ reduced the size of the damaged (infarcted) area of heart muscle, resulting in a desirable increase in pumping pressure from the left ventricle.  Treatment also reduced the number of episodes of ventricular fibrillation, a common and deadly complication of heart attacks. In a related study, PQQ performed as well as the prescription heart medication metoprolol in reducing infarct size. And PQQ proved superior to metoprolol in protecting mitochondria from oxidative damage arising from the infarction.

Immune system cells rely heavily on adequate supplies of PQQ for normal function. That’s especially important for older people, in whom immune function reliably falls off with increasing age. PQQ deficiency produces defects in multiple branches of the immune system, impairing its ability to respond to invading stimuli and raising the risk of infection.  A human equivalent dose of as little as 100-400 micrograms of PQQ per day maximizes sensitivity of important B- and T-lymphocytes (infection-fighting white blood cells) to external stimuli.

Summary

Loss of mitochondrial function is both a cause and a consequence of aging, producing a vicious cycle of oxidative damage that destroys brain cells. While antioxidant intake is critical, researchers now recognize it as only one part of a comprehensive preventive strategy.

The nutrient PQQ, essential for many forms of life on Earth, comprises a powerful strategy to combat brain aging. PQQ protects mitochondria from cumulative oxidative damage and stimulates growth of healthy new mitochondria, thereby restoring youthful brain cell function.

PQQ’s effects on brain mitochondria, coupled with its other beneficial neuroprotective characteristics, make it a natural solution for preserving brain function as you age. Taken together with PQQ’s recently discovered cardioprotection and well-established immune enhancement, there is every reason to include PQQ in your supplement program.    Full article here  – By Michelle Flagg – http://www.lef.org/magazine/mag2011/nov2011_Reverse-Brain-Cell-Death-by-Growing-New-Mitochondria_01.htm?source=search&key=PQQ

Where to find PQQ

About cwiechert1951

Christopher Wiechert, CNC is an educator, activist and consultant specializing in Nutrigenomic, Anti-Aging, Orthomolecular, & Restorative therapies. He has been working in the natural health field for 40 years. He is also the creator of HealthBlogger published online since 2005. His goal is to educate people about alternatives in nature for drugs and to introduce you to nutraceuticals, that along with a genetically sound diet, can increase your health span. https://about.me/christopher_wiechert

2 responses »

  1. Well written article, thank you. It is indicative of new opportunities resulting from recent research. I am going to do more reading on this now!
    Thank you!!!

    Reply

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