Dying before their time: studies of prematurely old mice hint that DNA mutations underlie aging.With one look, you can usually tell whether someone is old or young. Wrinkled skin or smooth. Thinning hair or thick locks. Bifocals or Ray-Bans. These are just a few of the overt clues. Far less obvious are the age-related signs that show up on the molecular level Ask a geneticist ge·net·i·cist n. A specialist in genetics. geneticist a specialist in genetics. geneticist where to look and he may point you to a person's mitochondria. These rod-shaped residents of an animal cell provide the cell with energy, and each mituchondrion has its own DNA DNA: see nucleic acid. DNA or deoxyribonucleic acid One of two types of nucleic acid (the other is RNA); a complex organic compound found in all living cells and many viruses. It is the chemical substance of genes. strand, which is distinct from the DNA in the chromosomes that dwell in the cell's nucleus. With age, this mitochondrial DNA Mitochondrial DNA (mtDNA) is the DNA located in organelles called mitochondria. Most other DNA present in eukaryotic organisms is found in the cell nucleus. Nuclear and mitochondrial DNA are thought to be of separate evolutionary origin, with the mtDNA being derived from the (mtDNA) becomes riddled with mutations, both subtle and severe. This observation, made in many species, has prompted some researchers to conjecture that the increasing burden of mutations in mitochondrial DNA is a cause of aging. The majority of researchers have thought otherwise. They argue that the mutations are molecular consequences of aging, akin to wrinkles and graying hair. "You get more gray hair as you get older, but nobody thinks aging is caused by gray hair," says NilsGoran Larsson of Karolinska University Hospital The Karolinska University Hospital or Karolinska Universitetssjukhuset is a university hospital in Stockholm, Sweden, with two major sites in the municipalities of Huddinge and Solna. in Sweden. Recently, however, Larsson and his colleagues have genetically engineered genetically engineered adjective Recombinant, see there mice to develop mtDNA mutations faster than normal. Compared to typical lab mice, these rodents suffer age-related conditions, such as hair loss, osteoporosis, anemia, and infertility, much sooner than typical mice do, and they die young. Many scientists hailed these results, reported in the May 27 Nature, as a vindication of the mitoehondrial theory of aging. "We have been waiting for many years for experimental evidence like this.... It is a fundamental advance in aging research," says David Samuels This article is about the Political Science professor. For the EastEnders character, see David Samuels (EastEnders). David J. Samuels, a Political Science professor at the University of Minnesota, earned his PhD at the University of California at San of Virginia Bioinformaties Institute in Blacksburg. Samuels finds the new report especially credible because several of its authors, including Larsson, have been publicly skeptical about the hypothesis that mtDNA mutations play a leading role in aging. For example, in a commentary in the February 2003 Aging Cell, Howard T. Jacobs of University of Tampere University of Tampere is a university in Tampere, Finland. It has some 15,400 degree students and 2,100 employees. It was originally founded in 1925 in Helsinki as a Civic College, and from 1930 onwards it was known as a School of Social Sciences. in Finland challenged the evidence implicating im·pli·cate tr.v. im·pli·cat·ed, im·pli·cat·ing, im·pli·cates 1. To involve or connect intimately or incriminatingly: evidence that implicates others in the plot. 2. mtDNA mutations. But the prematurely aging rodents have made him rethink his position. "I must admit that our findings are provocative," says Jacobs. "The hypothesis that I confidently expected would fall, did not ... The mtDNA mutation theory of aging emerges from all this with something of a feather in its cap." Some scientists aren't waiting for further confirmation. They're already exploring ways of countering the potential effects of the decay in mtDNA. A few researchers have even proposed genetically engineering people to make their mtDNA less prone to mutations. CELLULAR LIAISONS At some early point in the history of life, two microscopic cells--most likely different kinds of bacteria--apparently struck a complex bargain. One provided a safe, comfortable home inside its own cellular membrane. In exchange, the new tenants produced extra energy for the host cell. The enveloped en·vel·op tr.v. en·vel·oped, en·vel·op·ing, en·vel·ops 1. To enclose or encase completely with or as if with a covering: "Accompanying the darkness, a stillness envelops the city" microbes gradually shed their distinct identities and became what now are called mituchondria. Mitochondria are the power plants of an animal cell. Some energy-hungry cells, such as those in muscles, contain up to a thousand of these remarkable organelles. Instead of making electricity, as conventional power plants do, mitochondria use oxygen and complex sugars in a process known as respiration. The product is an energy-rich molecule, adenosine adenosine /aden·o·sine/ (ah-den´o-sen) a purine nucleoside consisting of adenine and ribose; a component of RNA. It is also a cardiac depressant and vasodilator used as an antiarrhythmic and as an adjunct in myocardial perfusion imaging triphosphate triphosphate /tri·phos·phate/ (tri-fos´fat) a salt containing three phosphate radicals. tri·phos·phate n. A salt or ester containing three phosphate groups. (ATP ATP: see adenosine triphosphate. ATP in full adenosine triphosphate Organic compound, substrate in many enzyme-catalyzed reactions (see catalysis) in the cells of animals, plants, and microorganisms. ), which cells use to drive myriad chemical reactions This is the 18th episode of television drama Men in Trees. It originally aired on June 25, 2007 on the TV2 network in New Zealand as a continuation of season 1. Recap Marin and Cash have a stew cook off, she admits his is better than hers. . Without ATP, cells would be powerless and die. Amitochondrion's minuscule anatomy incorporates more than 1,000 different proteins, but most of the genes encoding them have moved into the more sheltered environment sheltered environment An environment that provides protection and custodial care to those who cannot, for various reasons, fend for themselves Examples Nursing homes, institutions for mentally challenged, 'safe houses' for abused ♀, halfway houses for of the cell's nucleus. Remaining within the mitochondrion itself, however, is a small loop of DNA harboring 13 assorted genes. It is this DNA that some researchers suspect may hold the keys to aging. Because the mtDNA isn't sequestered se·ques·ter v. se·ques·tered, se·ques·ter·ing, se·ques·ters v.tr. 1. To cause to withdraw into seclusion. 2. To remove or set apart; segregate. See Synonyms at isolate. 3. in the nucleus, it's exposed to potentially damaging molecules floating around the cell's cytoplasm cytoplasm: see protoplasm. cytoplasm Portion of a eukaryotic cell outside the nucleus. The cytoplasm contains all the organelles (see eukaryote). . What's more, mtDNA doesn't have the benefit of the repair enzymes available to genes in a nucleus. Also, the very work that mitocbondria do may damage their DNA. The act of creating ATP spawns toxic by-products called free radicals that can rip nearby molecules to shreds. That, conceivably, could underlie various aspects of aging. "All cells depend on mitochondria for energy, and if the mitochondria begin to fail, then you would expect to see a general slow ing of activity throughout all the cells of the body," says Samuels. "And that description fits with aging." Another popular theory holds that aging results from the damage that free radicals do to various molecules in a cell. Free radicals arise not only from ATP production but also from other chemical reactions in the cell. Indeed, one camp of researchers considers the mitochondrial mitochondrial pertaining to mitochondria. mitochondrial RNAs a unique set of tRNAs, mRNAs, rRNAs, transcribed from mitochondrial DNA by a mitochondrial-specific RNA polymerase, that account for about 4% of the total cell RNA that theory of aging a spin-off of the free radical hypothesis. These scientists say that mtDNA is simply a target of the free radicals. Even so, everyone who studies the molecular basis of aging agrees that mtDNA gets more and more scrambled as animals age. Some of the mutations are subtle--a simple change of a single nucleotide, the basic building block of DNA. Others involve gross rearrangements of the mtDNA sequence or deletions of large stretches of the molecule. "It's a universal phenomenon," says Larsson. "You find these mutations in every aging human. You find [them] in mice, rats, and monkeys." LIFE SPAN LIMITS Highlighting the potential importance of mtDNA mutations, Samuels reports in the May Trends in Genetics that the vulnerability of mtDNA to deletions may constrain the maximum life span of most mammals to 80 to 100 years. Analyzing previously reported mtDNA sequences of 61 mammalian species, he considered the number of DNA repeats, which are nucleotide sequences that occur twice in close proximity along a DNA molecules. Such repeats mark areas of mtDNA that tend to get deleted with age. Samuels found that the species with the longer life spans generally have the smaller numbers of certain DNA repeats. Therefore, surmises Samuels, "longer-lived species have mtDNA that is less susceptible to mutation." Samuels acknowledges that his findings provide at best "circumstantial evidence circumstantial evidence In law, evidence that is drawn not from direct observation of a fact at issue but from events or circumstances that surround it. If a witness arrives at a crime scene seconds after hearing a gunshot to find someone standing over a corpse and holding a " for the mitochondrial theory of aging. That's why he is so impressed by the results of Larsson and Jacobs and their colleagues. Those researchers put the mitochondrial theory of aging to a direct test by creating mice with a defective gene for the enzyme that copies mtDNA. "This enzyme ... has the capacity to proofread newly synthesized DNA. If it makes an error, it can go back and insert the right nucleotide," says Larsson. His group used genetic engineering to produce mice that have a version of the enzyme that's sloppier than normal at proofreading Proofreading traditionally means reading a proof copy of a text in order to detect and correct any errors. Modern proofreading often requires reading copy at earlier stages as well. . As a result, deletions and other mutations rapidly accumulate in each mitochondrion's DNA. At birth, mice with this defective enzyme look and act healthy. Five months into their lives, however, they already seem to be getting old. They start to lose hair and weight and to develop osteoporosis, which leads to a curvature of the spine (Med.) an abnormal curving of the spine, especially in a lateral direction. See also: Curvature . Their hearts enlarge, and the mice become anemic and infertile in·fer·tile adj. Not capable of initiating, sustaining, or supporting reproduction. infertile, adj unable to produce offspring. . All of the rodents in Larsson's study were dead within 14 months; in contrast, a typical lab mouse lives 24 to 36 months. "These findings strongly support the idea that mutations in mitochondrial DNA can cause at least some features of aging," George M. Martin and Lawrence A. Loeb, both of University of Washington in Seattle, conclude in a commentary accompanying the Nature report by Larsson's group. "It's a beautiful paper," adds mitochondria researcher David Clayton of the Howard Hughes Medical Institute Howard Hughes Medical Institute, (HHMI), nonprofit medical research organization founded in 1953 by Howard Hughes and largly funded from proceeds of the 1984–85 sale of Hughes Aircraft. Headquartered in Chevy Chase, Md. in Chevy Chase Chevy Chase (chĕv`ē), town (1990 pop. 8,559), Montgomery co., W central Md., a residential suburb of Washington, D.C.; founded as a village, inc. 1914. , Md. "It will be regarded as a classic. Their claim is warranted--that this [experiment] establishes a causative link between mtDNA mutations and aging." That said, the new study leaves many questions unanswered. For example, how does an increase in mtDNA mutations cause so many aging-related problems? One possibility is that key cells may die or fail to perform necessary duties as their mitochondria produce less ATP. Another is that deteriorating mitochondria may, as they struggle to make ATP, unleash a flood of extra free radicals that disrupt other cellular functions. "My hunch is that the higher mutation load results in a higher rate of generation of reactive oxygen species reactive oxygen species, n molecules and ions of oxygen that have an unpaired electron, thus rendering them extremely reactive. Many cellular structures are susceptible to attack by ROS contributing to cancer, heart disease, and cerebrovascular disease. or other toxic byproducts of respiration, but that will need to be painstakingly tested," says Jacobs. Other researchers caution that although the recent study shows that mtDNA mutations can cause premature aging in genetically altered animals, it doesn't demonstrate that these mutations occur naturally at a rate that produces aging. "The real strength of the paper is that it establishes a causal association between mtDNA mutations and accelerated aging, but what it can't do is tell us precisely how much the natural variation of aging is due to natural variation in mtDNA-mutation rates," says David Rand of Brown University in Providence, R.I. Nonetheless, the mice engineered by Larsson and his colleagues should invigorate in·vig·or·ate tr.v. in·vig·or·at·ed, in·vig·or·at·ing, in·vig·or·ates To impart vigor, strength, or vitality to; animate: "A few whiffs of the raw, strong scent of phlox invigorated her" research into the processes of aging. "They've developed a wonderful tool with enormous potential," says Judd M. Aiken of University of Wisconsin in Madison. Aiken is interested in studying the muscles of the mutant mice. As people age, their muscles gradually waste away in a phenomenon called sarcopenia (SN: 8/10/96, p. 90). Aiken's team has amassed evidence that this deterioration occurs because more and more mitochondria malfunction with age. Larsson's team plans to cross the fast-aging rodents with mice genetically engineered to produce increased amounts of an enzyme that mops up free radicals in mitochondria. If the offspring live longer than 14 months, it would solidify the presumed connection between free radicals, mtDNA mutations, and aging. Larsson envisions drug companies using the prematurely aging mice to test compounds intended for treating or staving off osteoporosis, sarcopenia, and other age-related conditions. "My goal is not to find something to prolong life but to find something to reduce the pathology of aging," he says. For others, prolonging life is the primary goal, and they see an opportunity hidden in the mitochondrial theory of aging. Several scientists, most notably Aubrey D.N.J. de Grey of the University of Cambridge in England, have proposed a way to prevent the decay of mtDNA, and thereby perhaps to prevent aging. They suggest transferring copies of mtDNA's 13 genes into the safer environs of the cell nucleus, where the rest of the mitochondrial genes reside. "It's science fiction right now [but] imaginative," says Martin. The case for the mitochondrial DNA theory of aging isn't closed. Some facets of aging, such as cataracts and a weakening immune system immune system Cells, cell products, organs, and structures of the body involved in the detection and destruction of foreign invaders, such as bacteria, viruses, and cancer cells. Immunity is based on the system's ability to launch a defense against such invaders. , haven't turned up in the new mutant mice. This implies that there are multiple causes of aging. Moreover, Martin and Loeb contend that an ultimate test of the mitochondrial theory of aging would be to create mice whose DNA-copying enzyme is more accurate than normal. That should slow the mtDNA-mutation rate and, if the theory holds, lengthen the lives of the rodents. The Climate Connection Cold weather might have selected for life-prolonging stretches of DNA Some scientists are looking among the 46 human chromosomes for genes that promote longevity in people, but they may looking in the wrong place. Douglas C. Wallace of the university of California The University of California has a combined student body of more than 191,000 students, over 1,340,000 living alumni, and a combined systemwide and campus endowment of just over $7.3 billion (8th largest in the United States). , Irvine contends that he and his colleagues have found a potential fountain of youth Fountain of Youth legendary fountain of eternal youth. [World Legend: Brewer Dictionary, 432] See : Unattainability in mitochendrial DNA (mtDNA), the loops of genetic material in mitochondria, the energy-producing organelles of human cells. "We're finding mtDNA variants that allow people to live longer," says Wallace. Human mtDNA consists of 13 genes encoding proteins that enable mitochondria to produce the energy-storage molecule adenosine triphosphate (ATP) in a process known as cellular respiration cellular respiration n. The series of metabolic processes by which living cells produce energy through the oxidation of organic substances. . That process also generates the heat that maintains body temperature. The amount of heat made by mitochondria depends on their, efficiency. The better they are at making ATP, the less heat they generate. Wallace and his colleagues have recently analyzed the mtDNA of more than 1,100 people from around the world and concluded that some of the differences result from adaptations to the local climate. After comparing the mtDNA of people in tropical Africa to that of people in temperate Europe and arctic Siberia, the researchers argue that residents in colder climates have evolved mtDNA that produces less-efficient mitochondria and so generates additional body heat. "Different physiologies are good for different contexts," notes Wallace. In the same report, published in the Jan. 9 Science, the researchers assert that certain mtDNA lineages are associated with increased longevity. These mtDNA variants, found among temperate European populations, appear to produce mitochondria that generate more heat than lineages in tropical Africa do, says Wallace. The more heat and the less ATP that mitochondria make, the lower their production of free radicals, the highly toxic highly toxic Occupational medicine adjective Referring to a chemical that 1. Has a median lethal dose–LD50 of ≤ 50 mg/kg when administered orally to 200-300 g albino rats 2. molecules implicated im·pli·cate tr.v. im·pli·cat·ed, im·pli·cat·ing, im·pli·cates 1. To involve or connect intimately or incriminatingly: evidence that implicates others in the plot. 2. in aging. So, in theory, the mtDNA highlighted by Wallace should slow aging. Wallace still has work to do to convince his colleagues. "The interpretation that certain mtDNA variants produce more heat and are thus evolutionary adaptations to northern climates is viewed with skepticism," says David Samuels of Virginia Bio-informatics Institute in Blacksburg. The purported connection between certain versions of mtDNA and longevity, he says, is a "very weak association statistically." To convince his skeptics, Wallace plans to genetically engineer mice to have mtDNA similar to the human versions that he argues promote longevity. If those animals live longer, some of that skepticism could wither away.--J.T. |
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