“Limited Number of Cell Division” Theory According to this theory, the number of cell divisions is directly affected by the accumulation of the cells’ waste products. The more waste that is accumulated within our cells, the faster these cells degenerate.
This theory was originally proposed by Dr. Alexis Carroll, a French surgeon who was able to keep two chicken hearts alive in saline solution for over 28 years. He believed he had achieved this by disposing of the waste products within the cell. The theory was discounted by Dr. Leonard Hayflick when it was found that fresh cells had inadvertently been added to the cultures, making the chicken heart cells seem immortal.
Hayflick Limit Theory In 1961, two cell biologists, Dr. Morehead and Dr. Leonard Hayflick, made one of the most important contributions to aging theories. Dr. Hayflick1 theorized that the aging process was controlled by a biological clock contained within each living cell. In his research, he studied human fibroblast cells from the lung, skin, muscle and heart and found them to have a limited life span: they divided approximately 50 times over a period of years and then suddenly stopped.
Nutrition seemed to have an effect on the number of cell divisions. Whereas overfed cells made up to 50 divisions in a year, underfed cells took up to three times as long as normal (or overfed) cells to make the same number of divisions. This information was to be used as the basis of research in the future on caloric restriction and life extension, in general.
Death Hormone Theory Dr. Donner Denckle, an endocrinologist, formerly of Harvard University, originally presented this theory. He was convinced that the “death hormone,” or decreasing oxygen consumption hormone (DECO), released by the pituitary gland, contributed to the loss of neurons in the brain. When he removed the pituitary glands of rats, their immune systems were revitalized, the rate of crosslinking or glycation in the cells was reduced and cardiovascular function was restored to much more youthful levels. Denckle speculated that as humans age, the pituitary cells begin to release this “death hormone,” which inhibits the ability of cells to use the thyroid hormone (thyroxin). This affects the basic metabolic rates of cells to convert food to energy, and the resulting changes in the metabolic rate bring on and accelerate the process of aging.
Thymic Stimulating Theory According to this theory, the thymus gland is the master gland of the immune function. Dr. Alan Goldstein, Chairman of the Biochemistry Department of George Washington University, popularized this theory. The size of the thymus gland itself continues to shrink from birth to death. Studies have shown that thymic factors are helpful in restoring the immune function, as well as in rejuvenating poorly functioning immune systems in both old and young patients. Thymic hormones probably play a role in stimulating and controlling the production of neurotransmitters and key hormones that affect brain function, which therefore affects central pacemakers of aging.
Mitochondria Theory of Aging This theory is similar to the free radical theory, in general, and stresses the fact that free radicals directly damage mitochondrial DNA. Mitochondria are the energy-producing organelles (subcellular units or micro organs) within the cells that are responsible for producing adenosine triphosphate (ATP), which is the primary source of cellular energy.4 ATP fuels the nuclear and mitochondrial genetic machinery to allow cell reproduction to occur. At the same mitochondrial location, cells produce energy but also produce the vast amounts of potentially damaging free radicals. Mitochondria, because they have limited or very poor DNA repair mechanisms, are an extremely sensitive target for free radical damage.
Errors and Repair Theory In 1963, Dr. Leslie Orgel, of the Salk Institute, suggested that because the machinery for making proteins in cells is so essential to life, an error in this genetic machinery could be catastrophic. He focused on the production and reproduction of DNA and stated, “Over time this is not carried out with accuracy.” Because the body’s protective mechanisms to restore DNA are poor from birth on and decrease in number and efficacy with age, this repair system is incapable of making perfect repairs on damaged DNA, and this results directly in disease and other age-related changes. This theory seems to have gained credibility, specifically in reference to the more recent research and literature documenting the importance of DNA repair.5–8
Identical DNA Theory This theory suggests that there are genetically identical “sequences of DNA within our genetic codes that take over after the initial sequences are worn out or damaged. Dr. Medvedev, at the National Institutes of Medical Research in London, proposed that in different species, life span may be a function of the degree of these repeated genetic sequences in the nucleus.
Crosslinkage Theory of Aging This theory was initially proposed in 1942 by “Johann Bjorksten. The crosslinking phenomenon, he stated, “occurs in neighboring molecules, and as we age, the number of crosslinks increases, causing, for instance, skin to shrink and collagen to become less soft and pliable.” He proposed that these crosslinks begin to obstruct the passage of nutrients and waste products between cells. He also proposed that the immune system is incapable of cleaning out this excess crosslinked material, which is found in a specific form of glucose molecules. These glucose molecules react with proteins, causing further crosslinking and the subsequent formation of destructive free radicals. His research has caused more recent anti-aging scientists to focus on the importance of glycation as a key component of the aging process.
Autoimmune Theory According to this theory, as the body ages, the body’s ability to produce necessary antibodies to fight key diseases declines. In another sense, the immune system also becomes self-destructive and reacts against its own proteins. More recent literature has lent credibility to this theory, especially in view of the effects of the aging gastrointestinal tract and leaky gut syndrome (LGS). LGS has been shown to be directly related to the autoimmune phenomenon as people age.
Caloric Restriction Theory This theory was originally proposed by renowned gerontologist Dr. Roy Walford, of the University of California, Los Angeles, Medical School, who stated, “Undernutrition without malnutrition can dramatically retard the functional as well as the chronological aging process.” Although Dr. Walford could not explain the underlying biological processes, he stated that “cutting caloric restriction had a direct effect on obtaining maximum health and life span.” He stressed the importance of not only caloric restriction but also moderate vitamin and mineral supplement intake, coupled with regular exercise. The discovery of the Sir2P gene has verified the importance of such supplements and exercise.
Gene Mutation Theory In the 1940s, scientists investigated the role of mutations in aging. Mutations are changes that occur in the genetic structure of DNA. Genes are critical for every aspect of cellular life. In experiments with radiation, it was observed that radiation not only increased animals’ genetic mutation but also accelerated the aging process.
Rate of Living Theory This theory was originally proposed by a German physiologist, Max Rudner, who discovered the relationship among metabolic rate, body size and longevity. He first introduced the theory in 1908 and stated simply that “We are each born with a limited amount of ‘energy.’ When we use this ‘energy’ slowly, our rate of aging is slowed. If the energy is used quickly, aging is hastened.”
Telomerase Theory of Aging According to this theory, the one most recently proposed, aging is based on a specific sequence of base pairs located at the end of each chromosome. The end portion of a chromosome is called a telomere. This information was first discovered by a group of scientists at Geron Corporation of Menlo Park, California. It was observed that telomeres were sequences of base pairs extending from the ends of the chromosomes. They maintain the integrity of chromosomes during cell division. Every time a cell