Alzheimer's disease genetics.Fact Sheet Scientists do not yet fully understand what causes Alzheimer's disease Alzheimer's disease (ăls`hī'mərz, ôls–), degenerative disease of nerve cells in the cerebral cortex that leads to atrophy of the brain and senile dementia. (AD). However, the more they learn about AD, the more they become aware of the important function genes* play in the development of this devastating dev·as·tate tr.v. dev·as·tat·ed, dev·as·tat·ing, dev·as·tates 1. To lay waste; destroy. 2. To overwhelm; confound; stun: was devastated by the rude remark. disease. Genes All living things Living Things may refer to:
Genes alone are not all-powerful. Most genes can do little until spurred on by other substances. Although they are necessary in their own right, genes basically wait inside the cell's nucleus for other molecules to come along and read their messages. These messages provide the cell with instructions for building a specific protein. * Terms in bold italics are defined at the end of this fact sheet. Proteins are essential building blocks in all cells. Bones and teeth, muscles and blood, for example, are formed from different proteins. They help our bodies grow, work properly, and stay healthy. Amino acids are the building blocks of proteins. A gene provides the code, or blueprint, for the type and order of amino acids needed to build a specific protein. Sometimes a genetic mutation Noun 1. genetic mutation - (genetics) any event that changes genetic structure; any alteration in the inherited nucleic acid sequence of the genotype of an organism chromosomal mutation, mutation (or defect in a gene) can occur, leading to the production of a faulty protein. Faulty proteins can cause cell malfunction mal·func·tion v. 1. To fail to function. 2. To function improperly. n. 1. Failure to function. 2. Faulty or abnormal functioning. , disease, and death. Scientists are studying genes to learn more about the proteins they make and what these proteins actually do in the body. They also hope to discover what illnesses are caused when proteins don't work right. The Genetics of Alzheimer's Disease Diseases such as cystic fibrosis cystic fibrosis (sĭs`tĭk fībrō`sĭs), inherited disorder of the exocrine glands (see gland), affecting children and young people; median survival is 25 years in females and 30 years in males. , muscular dystrophy muscular dystrophy (dĭs`trōfē), any of several inherited diseases characterized by progressive wasting of the skeletal muscles. There are five main forms of the disease. , and Huntington's disease Huntington's disease, hereditary, acute disturbance of the central nervous system usually beginning in middle age and characterized by involuntary muscular movements and progressive intellectual deterioration; formerly called Huntington's chorea. are single-gene disorders. If a person inherits the mutated gene that causes one of these disorders, he or she will usually get the disease. AD, on the other hand, is not caused by a single gene. More than one gene mutation Noun 1. gene mutation - (genetics) a mutation due to an intramolecular reorganization of a gene point mutation genetic science, genetics - the branch of biology that studies heredity and variation in organisms can cause AD, and genes on multiple chromosomes are involved. The two types of AD are early-onset and late-onset, depending on whether the disease starts before or after the age of 65. Less than 5 percent of AD is early-onset, and this form of the disease often runs in families. Many forms of early-onset AD are caused by gene mutations on chromosomes 1, 14, or 21. Like the other diseases mentioned above, even if only one of these mutated genes is inherited from a parent, the person will usually develop early-onset AD. This inheritance pattern Inheritance pattern Refers to dominant or recessive inheritance. Mentioned in: Peripheral Neuropathy is referred to as autosomal dominant inheritance Autosomal dominant inheritance A pattern of inheritance in which a trait will be expressed if the gene is inherited from either parent. Mentioned in: Creutzfeldt-Jakob Disease : all children have a 50/50 chance of developing early-onset AD if one of their parents had it. Genes in Late-onset Disease The majority of AD cases are late-onset, usually developing after age 65. Late-onset AD has no known cause and shows no obvious inheritance pattern. However, in some families, clusters of cases are seen. Although a specific gene has not been identified as the cause of late-onset AD, genetic factors do appear to play a role in the development of this form of AD. Only one risk factor gene has been identified so far. Researchers have identified an increased risk of developing late-onset AD related to the apolipoprotein E apolipoprotein E A 34-kD cholesterol-binding glycoprotein, which comprises 15% of VLDL; apoE maps to chromosome 19, is secreted by macrophages that mediate the uptake of lipoproteins–VLDL, HDL, LDL and cholesterol esters into cells via distinct binding APOE APOE ε4 Molecular neurology The type 4 allele of the apolipoprotein E gene locus located on chromosome 19, which may↑ the risk of late-onset Alzheimer's disease, and has been associated with ↓ cerebral parietal metabolism; possession of an ) gene found on chromosome 19. This gene codes for a protein that helps carry cholesterol in the bloodstream. The APOE gene comes in several different forms, or alleles, but three occur most frequently: APOE [epsilon]2, APOE [epsilon]3, and APOE [epsilon]4. People inherit one APOE allele allele (əlēl`): see genetics. allele Any one of two or more alternative forms of a gene that may occur alternatively at a given site on a chromosome. from each parent. Having one or two copies of the [epsilon]4 allele increases a person's risk of getting AD. That is, having the [epsilon]4 allele is a risk factor for AD, but it does not mean that AD is certain. Some people with two copies of the [epsilon]4 allele (the highest risk group) do not develop clinical signs of Alzheimer's disease, while others with no [epsilon]4s do. The [epsilon]3 allele is the most common form found in the general population and may play a neutral role in AD. The rarer [epsilon]2 allele appears to be associated with a lower risk of AD. The exact degree of risk of AD for any given person cannot be determined based on APOE status. Therefore, the APOE [epsilon]4 gene is called a risk factor gene for late-onset AD. Scientists are looking for Looking for In the context of general equities, this describing a buy interest in which a dealer is asked to offer stock, often involving a capital commitment. Antithesis of in touch with. genetic risk factors for late-onset AD on other chromosomes as well. They think that additional risk factor genes may lie on regions of chromosomes 9, 10, and 12. The National Institute on Aging The National Institute on Aging is a division of the U.S. National Institutes of Health, located in Bethesda, Maryland. Formed in 1974, NIA's mission is to improve the health and well-being of older Americans through research. It is the primary U.S. (NIA NIA National Institute on Aging (NIH) NIA National Indoor Arena (UK) NIA National Intelligence Agency (South Africa and Thailand) NIA National Institute of Accountants ) has launched a major study to discover remaining genetic risk factors for late-onset AD. Geneticists This is a list of people who have made notable contributions to genetics. The growth and development of genetics represents the work of many people. This list of geneticists is therefore by no means complete. Contributors of great distinction to genetics are not yet on the list. from the NIA's Alzheimer's Disease Centers are working to collect genetic samples from families affected by multiple cases of late-onset AD. Researchers are seeking large families with two or more living relatives with late-onset AD. Families interested in participating in this study can contact the National Cell Repository for Alzheimer's Disease at 1-800-526-2839. Information may also be requested through their website, http://ncrad.iu.edu. APOE Testing in Research or Diagnosis A blood test is available that can identify which APOE alleles a person has. However, because the APOE [epsilon]4 gene is only a risk factor for AD, this blood test cannot tell whether a person will develop AD or not. Instead of a yes or no answer, the best information a person can get from this genetic test for APOE is maybe or maybe not. Although some people want to know whether they will get AD later in life, this type of prediction is not yet possible. In fact, some researchers believe that screening measures may never be able to predict AD with 100 percent accuracy. In a research setting, APOE testing may be used to identify study volunteers who may be at a higher risk of getting AD. In this way, researchers can look for early brain changes in some patients. This test also helps researchers compare the effectiveness of treatments for patients with different APOE profiles. Most researchers believe that the APOE test is useful for studying AD risk in large groups of people but not for determining one person's individual risk. Predictive screening in otherwise healthy people will be useful if an accurate/reliable test is developed and effective ways to treat or prevent AD are available. In diagnosing AD, APOE testing is not a common practice. The only definite way to diagnose AD is by viewing a sample of a person's brain tissue under a microscope to determine if there are plaques and tangles present. This is usually done after the person dies. However, through a complete medical evaluation (including a medical history, laboratory tests, neuropsychological tests, and brain scans), well-trained doctors can diagnose AD correctly up to 90 percent of the time. Doctors look to rule out other diseases and disorders that can cause the same symptoms of AD. If no other cause is identified, a person is said to have "probable" or "possible" AD. In some cases, APOE testing may be used in combination with these other medical tests to strengthen the diagnosis of a suspected case of AD. Currently, there is no medical test to establish if a person without the symptoms of AD is going to develop the disease. APOE testing as a patient screening (predictive) method is not recommended. Concerns About Confidentiality APOE testing, and indeed all genetic testing Genetic Testing Definition A genetic test examines the genetic information contained inside a person's cells, called DNA, to determine if that person has or will develop a certain disease or could pass a disease to his or her offspring. , raises ethical, legal, and social questions for which we have few answers. Generally, confidentiality laws protect APOE information gathered for research purposes. On the other hand, information obtained in APOE testing may not remain confidential if it becomes part of a person's medical records. Thereafter, employers, insurance companies, and other health care organizations could find out this information, and discrimination could result. For example, employment opportunities or insurance premiums could be affected. Genetic Counseling Genetic Counseling Definition Genetic counseling aims to facilitate the exchange of information regarding a person's genetic legacy. It attempts to: Purpose Depending on the study, research volunteers may occasionally have the opportunity to learn the results of their APOE testing. The meaning of these results is complex. Since the results of APOE testing can be hard to understand, and more importantly, devastating to those tested, the NIA and the Alzheimer's Association The Alzheimer's Association, incorportated on April 10, 1980 as the Alzheimer’s Disease and Related Disorders Association, Inc., is a non-profit American voluntary health organization which focuses on care, support and research for Alzheimer's disease. recommend that research volunteers and their families receive genetic counseling before and after testing, if they have the option of learning the results. People who learn through testing that they have an increased risk of getting AD may experience emotional distress emotional distress n. an increasingly popular basis for a claim of damages in lawsuits for injury due to the negligence or intentional acts of another. Originally damages for emotional distress were only awardable in conjunction with damages for actual physical harm. and depression about the future, because there is not yet an effective way to prevent or cure the disease. Through counseling, families can learn about the genetics of AD, the tests themselves, and possible meanings of the results. Due to privacy, emotional, and health care issues, the primary goal of genetic counseling is to help people explore and cope with the potential consequences of such knowledge. The National Society for Genetic Counselors (NSGC NSGC National Society of Genetic Counselors NSGC Naval Security Group Command (US Navy) NSGC National Space Grant Consortia NSGC National Student Genderblind Campaign NSGC North Staffordshire Guild of Craftsmen (UK) ) can provide a list of genetic counselors in your area, as well as information about creating a family history. Search their online database at www.nsgc.org/consumer/index.asp. The NSGC does not provide information about specific genetic disorders The following is a list of genetic disorders and their origins. Beside most disorders is a code that indicates the type of fertilization and the chromosome involved.
Experts still do not know how limited information about AD risk can benefit people. Among the issues are privacy and confidentiality policies related to genetic information and AD, and the small number of genetic counselors now trained in neurodegenerative disorders. In addition, little is known about how stigma associated with an increased risk for AD may affect people's families and their lives. Research Questions Learning more about the role of APOE 4[epsilon] and other risk factor genes in the development of AD may help scientists identify who would benefit from prevention and treatment efforts. Age, still the most important known risk factor for AD, continues to be associated with the disease even when no known genetic factors are present. Research focusing on advancing age may help explain the role that other genes play in most AD cases. Many AD researchers are studying the genetics of AD. In addition, researchers, ethicists, and health care providers are developing policies about the appropriate use of genetic testing and counseling for AD. For More Information Accurate, current information about AD and its risk factors is important to patients and their families, health professionals, and the public. The Alzheimer's Disease Education and Referral (ADEAR ADEAR Alzheimer's Disease Education And Referral Center ) Center is a service of the NIA and is funded by the Federal Government. The ADEAR Center offers information about diagnosis, treatment, patient care, caregiver needs, long-term care long-term care (LTC), n the provision of medical, social, and personal care services on a recurring or continuing basis to persons with chronic physical or mental disorders. , education and training, and AD research. Staff respond to telephone, e-mail, and written requests and make referrals to local and national resources. Contact: ADEAR Center PO Box 8250 Silver Spring, MD 20907-8250 1-800-438-4380 Fax: 301-495-3334 E-mail: adear@alzheimers.org Website: www.alzheimers.org The Alzheimer's Association is a nonprofit organization Nonprofit Organization An association that is given tax-free status. Donations to a non-profit organization are often tax deductible as well. Notes: Examples of non-profit organizations are charities, hospitals and schools. supporting AD research and providing support for families and caregivers of patients with AD. Chapters nationwide provide referrals to local resources and services, and sponsor support groups and educational programs. The Association is also helping identify families who may be able to participate in the NIA's AD Genetics Study. For information on the Association, contact: Alzheimer's Association 225 N. Michigan Avenue, Suite 1700 Chicago, IL 60611-1676 1-800-272-3900 E-mail: info@alz.org Website: www.alz.org Additional information is available from the National Human Genome Research Institute (NHGRI NHGRI National Human Genome Research Institute ), part of the NIH "Not invented here." See digispeak. NIH - The United States National Institutes of Health. . Visit the NHGRI website at www.genome.gov. Key Terms Alleles--different forms of the same gene. Two or more alleles can shape each human trait. Each person receives two alleles of a gene, one from each parent. This combination is one factor among many that influences a variety of processes in the body. On chromosome 19, the apolipoprotein E (APOE) gene has three common forms or alleles: [epsilon]2, [epsilon]3, and [epsilon]4. Thus, the possible combinations in one person are [epsilon]2/2, [epsilon]2/3, [epsilon]2/4, [epsilon]3/3, [epsilon]3/4, or [epsilon]4/4. APOE Gene--a gene on chromosome 19 involved in making ApoE, a substance that helps carry cholesterol in the bloodstream. The APOE [epsilon]4 gene is considered a "risk factor" gene for AD and appears to influence the age of onset The age of onset is a medical term referring to the age at which an individual acquires, develops, or first experiences a condition or symptoms of a disease or disorder. Diseases are often categorized by their ages of onset as congenital, infantile, juvenile, or adult. of the disease. Chromosomes--thread-like structures in every cell of the human body. Chromosomes carry genes. All healthy people have 46 chromosomes in 23 pairs. Usually, people receive one chromosome in each pair from each parent. Genes--basic units of heredity heredity, transmission from generation to generation through the process of reproduction in plants and animals of factors which cause the offspring to resemble their parents. That like begets like has been a maxim since ancient times. that direct almost every aspect of the construction, operation, and repair of living organisms. Each gene is a set of biochemical instructions that tells a cell how to assemble one of many different proteins. Each protein has its own highly specialized role to play in the body. Genetic Mutations--permanent changes to genes. Once such change occurs, it can be passed on to children. The relatively rare, early-onset familial AD is associated with mutations in genes on chromosomes 1, 14, and 21. Human Genome--the total genetic information found on the 23 chromosomes inherited from a parent. Through research decoding de·code tr.v. de·cod·ed, de·cod·ing, de·codes 1. To convert from code into plain text. 2. To convert from a scrambled electronic signal into an interpretable one. 3. the human genome scientists believe humans have between 30,000 to 35,000 genes. Proteins--Cells translate genetic information into specific proteins. Proteins determine the physical and chemical characteristics of cells and therefore organisms. Proteins are essential to all life processes. |
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