Wednesday, November 27, 2019
Huntington Disease Essays
Huntington Disease Essays Huntington Disease Essay Huntington Disease Essay Huntington Disease Huntington disease ( HD ) is an autosomal-dominant upset, characterized as disease of progressive encephalon devolution in late maturity with subsequent encephalon wasting. The affected countries of devolution are the basal ganglia, which play an of import function in the control of motion. This devolution causes assorted motor jobs such as behavioural abnormalcy, chorea, incoordination and dystonia ( Folstein, 1989 ) . George Huntington was the first adult male that described HD in the nineteenth century in item particularly its familial nature of chorea ( Huntington, 1872 ) . New findings have shown that HD involves the mutant protein huntigtin. This protein is translated from a CAG repetition organizing a polyglutamine strand of variable length at the N-terminus. The molecular mechanism of HD is non to the full understood but new findings utilizing carnal theoretical accounts have provided valuable information. The cistron associated with HD is termed the HD cistron and can be found on the short arm of chromosome four. As the disease is autosomal dominant, merely one HD cistron is sufficient to do the upset. The HD cistron is composed of a trinucleotide CAG repeats.The allelomorphs of the HD cistron are grouped as normal, intermediate or HD-causing. Each group has a characteristic figure of CAG repetitions. The normal allelomorphs have 26 or fewer CAG repetitions whereas intermediate allelomorphs have 27-35 CAG repetitions ( Potter et al. , 2004 ) . Carriers of normal allelomorphs and intermediate allelomorphs are non at hazard of developing HD. However, persons with intermediate allelomorphs are at hazard of giving birth to a kid with an allelomorph of HD-causing characteristic ( Semaka et al. , 2006 ) . Thus, intermediate allelomorphs are besides termed changeable allelomorphs as they may mutate to do HD phenotype in the progeny. The ground for the mutant lies in the instability of the re production. The longer the figure of trinucleotides, the greater the instability. In 73 % of the instances, the instability leads to an enlargement of the trinucleotide repetitions and therefore an addition in the hazard of developing HD whereas merely 23 % show a contraction of the figure of repetitions associated with a low hazard of developing HD ( Chattapadhyay et al. , 2005 ; Djousse et al.,2004, MacDonald et al. , 1999 ) . HD-causing allelomorphs normally contain 36 or more CAG repetitions and present the bearer at an increased hazard of developing HD. HD-causing allelomorphs have been categorized into two groups: Reduced-penetrance HD-causing allelomorphs and Full-penetrance HD-causing allelomorphs. Reduced-penetrance or uncomplete HD-causing allelomorphs are composed of 36-39 trinucleotide CAG repetitions ( Rubinsztein, 2003 ; Rubinsztein et al. , 1996 ; McNeil et al. , 1997 ) . Carriers of this allelomorph may be symptomless and non demo the symptoms. On the other manus, full-penetrance HD-causing allelomorphs are characterized by 40 or more CAG repetitions and bearers of this allelomorph have a high chance of developing HD ( Rubinsztein et al. , 1996 ; McNeil et al. , 1997 ; Langebehn et al. , 2004 ) . The instability of the trinucleotide repeats occurs more frequently in males ( spermatogenesis ) than in females ( oogenesis ) . This phenomenon can besides be observed in the progeny with paternal heritage of the HD cistron where the oncoming of HD is more powerful and occurs in the early young person. In add-on, households with no history of HD may develop HD via new mutants originating by the elaboration of trinucleotide CAG repetitions and most of these new mutants come from the paternal side ( Anca et al. , 2004 ; Squitieri et al. , 2003 ) . Bodily instability of CAG repetitions can besides originate and hold been observed in human existences every bit good as animate being theoretical accounts. Furthermore, indistinguishable twins demonstrate different clinical syndromes and have about a similar age of oncoming. Twins that are bearers of homozygous allelomorphs have no difference in the age of oncoming ( Georgiou et al. , 1999 ) . Carriers of the HD allelomorph are clinically healthy before the oncoming of the HD disease symptoms. However, in the so called preclinical stage, there are little alterations happening in motor accomplishments, knowledge and personality ( Walker, 2007 ) . The oncoming of HD disease symptoms normally occurs in the average age of oncoming which is 35 to 44 old ages ( Bates et al. , 2002 ) . In 66 % , initial symptoms are abnormalcies in the neurological map or psychiatric alterations. Other symptoms are minor involountary motions, trouble in mental planning, depression and little alterations in the oculus motion. In 25 % of HD bearers, the visual aspect of initial symptoms such as chorea, dysphagia and pace perturbation is delayed until after 50 old ages with the disease symptoms taking a more drawn-out and soft class. At the same clip, the life style of the affected persons does non alter and they can still go on with their current employment. The initial oncoming of the symptoms is followed by an increased diagnostic chorea, trouble in commanding voluntary motion every bit good as aggravation of dysarthria and dysphagia. As a consequence of the deterioration symptoms, the affected persons must go forth employment and may necessitate extra aid to get by with some activities in their day-to-day life. The concluding phase of HD demonstrates terrible motor disablement. The symptoms have worsened so much that so that the bearers can non cover with their damage at all and necessitate the aid of other people. The bearers are tongueless and incontinent and demo a average endurance clip of 15 to 18 old ages after the first oncoming of HD related symptoms. The life anticipation is suggested to be at 54 to 55 old ages ( Harper, 2005 ) . The diagnosing of HD is based on mutant analysis. For this intent, PCR based methods can be utilised which musca volitanss alleles up to about 115 CAG repetitions. Likewise, southern smudge is employed for allelomorphs with more than 115 CAG ( Potter et al. , 2004 ) . Such big enlargements are linked with juvenile-onset of HD triggered by homozygous HD genotypes. Moderate-to-severe Huntington s disease illustrate larger frontal horns of the sidelong ventricles and lack in striatal volume when modus operandi MRI and CT scans are performed ( Stober et al. , 1984 ) . However, scans are non helpful for the diagnosing of early upset. Functional MRI surveies and informations from PET have displayed that affected encephalons started to change before the oncoming of symptoms ( Kunig et al. , 2000, Paulsen et al. , 2004 ) . Using these techniques, it is possible to acknowledge caudate wasting every bit easrly as 11 old ages before the expected oncoming of the disease, and it is possible to re cognze putaminal wasting 9 old ages before the expected oncoming ( Aylward et al. , 2004 ) . Tensor-based magnetic resonance morphometry demonstrates increasing loss of striatal loss in persons who are preclinical transporting the HD cistron and do non demo grounds of progresson by clinical or neuropsychological trials over 2 old ages ( Kipps et al. , 2005 ) . Familial proving for HD is merely considered by 5 % of HD hazard bearers due to household planning and employment. Many HD hazard bearers do non undergo proving as there is no efficient intervention for HD available ( Laccone et al. , 1999 ) . Furthermore, prognostic testing can hold psychological effects for HD hazard bearers taking to suicide due to mental depression ( Almqvist et al. , 2003 ) . Therefore, it is important to place self-destructive forms in immature HD hazard bearers and give pretest guidance. Epidemiologic surveies suggest that HD is most prevailing in the white Caucasic population with 5-7 people affected per 100000. There are besides exclusions in countries where the full population is derived from a few laminitiss such as in Lake Maracaibo in Venezuela or Tasmania ( Pridmore, 1990 ) . Across most of Asia and Africa the incidences of HD are much lower. The ground for the assorted distribution of HD incidence lies in the CAG repetitions. White Caucasians have a much higher frequence of HD allelomorphs that are composed of 28-35 CAG repetitions ( Kremer, 2002 ; Harper A ; Jones, 2002 ) . The high frequence of this HD alleles in the white population is non to the full understood. The HD cistron may give a wellness benefit as in other familial upsets such as reaping hook cell trait. It is thought that the HD cistron is associated with a lower hazard of developing malignant neoplastic disease, perchance due to the upregulation of TP53 in HD disease ( Bae et al. , 2005 ; DiF iglia etal. , 1995 ) . The pathogenesis of HD affecting the protein huntingtin is ill understood. Even though orthologs of that protein have been detected in zebrafish, drosophilia and sludge molds, the function of the protein is still unknown ( Jones, 2002 ) . Huntingtin has a high laterality in all human cells. Most of it is expressed in the encephalon and testicles whereas bosom, lungs and liver show moderate sums of it ( DiFiglia et al.,1995 ) . One hypothesis suggests that happloinsufficiency plays an indispensable function in the pathogenesis of HD. This would intend that deficient sums of huntingtin protein are generated for the cells to work decently ( Ambrose et al.,1994 ) . However, this hypothesis besides have been refuted by other findings which suggest that a lack of HD cistron in adult male does non do HD in adult male ( Rubinsztein, 2003 ; Ambrose et al. , 1994 ) . This is besides supported by transgenic mouse theoretical accounts. One allelomorph of the HD cistron does non do HD in transgenic mouse theoretical accounts and complete absence of the HD cistron is linked to mortality in mouse embryos ( Squitieri et al. , 2003 ) . Therefore, new findings explain the pathogenesis of HD as a toxic addition of map derived from the mutant HD cistron. Likewise, this phenomenon can besides be observed in other familial diseases such as muscular wasting or dentatorubropallidoluysian ( Ambrose et al. , 1994 ; Andrew et al. , 1993 ) . There is non sufficient grounds to back up the claim of happloinsufficiency in any of these familial disease but an accretion of polyglutamines with subsequent neurodegeneration. This is farther supported by the relationship betwe en length of polyglutamine repetition and age of oncoming. Longer polyglutamine repetition ironss are associated with more aggressive patterned advance of HD disease symptoms and the juvenile oncoming of HD ( Mahant et al. , 2003 ; Squitieri et al. , 2002 ; Forproud et al. , 1999 ) . The biological construction of polyglutamine gives more insight into the toxic addition of map in HD. Experiments performed in vitro show that polyglutamine sums by organizing dimmers, trimers and oligomers. For this collection to be efficient, a minimal figure of 37 glutamine residues in sequence is required. The rate of collection additions as more glutamine repetitions are added to the long concatenation of glutamine polypeptide. This in vitro observation may be an explaination why some persons experience late oncoming of HD while others have a juvenile oncoming of HD. Some cardinal points have been discovered in the mechanism explicating how aggregative polyglutamine leads to neural disfunction. The mutant huntingtin protein is more prone to proteleolysis than its wild type opposite number. This higher hazard of protein debasement creates truncated proteins, which lead to the formation of sums of abbreviated huntingtin. Additionally, shorter glutamine repetitions are less likely to organize steric clangs than longer 1s. It is believed that these sums are toxic and locate in the cell nucleus. ( Saudou et al. , 1998 ; Peter et al. , 1999 ; Wellington et al. , 2000 ) . Finally, the rate of collection overcomes the rate at which proteosomes or autophagic vacuolisation degrade the proteins in the cell. This farther exacerbates the formation of aggregative protein in concurrence with the ability of sums to enroll normal organic structure proteins to their matrix. Examples of normal organic structure proteins are those proteins that interact with the wil d type signifier of huntingtin straight ( Mills et al. , 2005 ) . Some documents besides propose that the protein huntingtin may exercise non merely a toxic addition of map but besides a dominant negative consequence on the typical map of the wild type protein huntingtin. This manner, mutant huntingtin could interfere with proteins that regulate written text, programmed cell death, tumour suppression or axonal conveyance ( Bae et al. , 2005 ; Busch et al. , 2003 ; Charrin et al. , 2005 ; Gauthier et al. , 2004, Hickey A ; Chesselet, 2003 ) . Last, one other hypothesis provinces that mutant huntingtin may interfere in neuron-neuron interaction. This has been illustrated in mice where the mutant protein huntingtin disrupts the axonal conveyance and cyst release of neurotrophic factor in nerve cells taking to intrinsic disfunction of striatal nerve cells ( Pulst et al. , 1996 ; Komure et al. , 1995 ) . Mentions Almqvist EW, Brinkman RR, Wiggins S, Hayden MR. Psychological effects and forecasters of inauspicious events in the fi rst 5 old ages after prognostic testing for Huntington s disease. Clin Genet 2003 ; 64: 300-09. Ambrose CM, Duyao MP, Barnes G, et Al. Structure and look of the Huntington s disease cistron: grounds against simple inactivation due to spread out CAG repetition. Somat Cell Mol Genet 1994 ; 20: 27-38. Anca MH, Gazit E, Lowewenthal R, Ostrovsky O, Frydman M, Giladi N. Diff erent phenotypic look in monozygotic twins with Huntington disease. Am J Med Genet 2004 ; 124: 89-91. Andrew SE, Goldberg YP, Kremer B, et Al. The relationship between trinucleotide ( CAG ) repetition length and clinical characteristics of Huntington s disease. Nat Genet 1993 ; 4: 398-403. Aylward EH, Sparks BF, Field KM, et Al. Onset and rate of striatal wasting in presymptomatic Huntington disease. Neurology 2004 ; 63: 66-72. Bae BI, Xu H, Igarashi S, et Al. P53 mediates cellular disfunction and behavioural abnormalcies in Huntington s disease. Neuron 2005 ; 47:29-41. Bates G, Harper P, Jones L ( 2002 ) Huntington s Disease. Oxford University Press, New York. Busch A, Engemann S, Lurz R, et Al. Mutant huntingtin promotes the fibrillogenesis of wild-type huntingtin: a possible mechanism for loss of huntingtin map in Huntington s disease. J Biol Chem 2003 ; 278: 41452-61. Charrin BC, Saudou F, Humbert S. Axonal conveyance failure in neurogenerative upsets: the instance of Huntington s disease. Pathol Biol 2005 ; 53: 189-92. Chattapadhyay B, Baksi K, Mukhopadhyay S, Bhattacharyya NP. Transition of age at oncoming of Huntington s disease patients by fluctuations in TP53 and human caspase activated DNase ( hCAD ) cistrons. Neurosci Lett 2005 ; 374: 81-86. DiFiglia M, Sapp E, Chase K, et Al. Huntingtin is a cytoplasmatic protein association with cysts in human and rat encephalon nerve cells. Neuron 1995 ; 14: 1075-81. Djousse L, Knowlton B, Hayden MR, et Al. Evidence for a qualifier of onset age in Huntington disease linked to the HD cistron in 4p16. Neurogenetics 2004 ; 5: 109-14. Foroud T, Gray J, Ivashina J, Conneally PM. Differences in continuance of Huntington s disease based on age at oncoming. J Neurol Neurosurg Psychiatry 1999 ; 66: 52-56. Folstein S. Huntington s disease: a upset of households. Old line state: The Johns Hopkins University Press, 1989. Gauthier LR, Charrin BC, Borrell-Pages M, et Al. Huntingtin controls neurotrophic support and endurance of nerve cells by heightening BDNF vesicular conveyance along microtubules. Cell 2004 ; 118: 127-38. Georgiou N, Bradshaw JL, Chiu E, Tudor A, OGorman L, Phillips JG. Diff erential clinical and motor control map in a brace of monozygotic twins with Huntington s disease. Mov Disord 1999 ; 14:320-25. Harper PS, Jones L. Huntington s disease: familial and molecular surveies. In: Bates G, Harper P, Jones L, eds. Huntington s disease. New York: Oxford University Press, 2002: 113-58. Harper B.Huntington disease.J R Soc Med.2005 ; 98:550. Hickey MA, Chesselet MF. Apoptosis in Huntington s disease. Prog Neuropsychopharmacol Biol Psychiatry 2003 ; 27: 256-65. Huntington G. On chorea. Med Surg Rep 1872 ; 26: 317-21 Kipps CM, Duggins AJ, Mahant N, Gomes L, Ashburner J, McCusker EA. Progression of structural neuropathology in presymptomatic Huntington s disease: a tensor based morphometry survey. J Neurol Neurosurg Psychiatry 2005 ; 76: 650-55. Kunig G, Leenders KL, Sanchez-Pernaute R, et Al. Benzodiazepine receptor binding in Huntington s disease: [ 11C ] Florida umazenil consumption measured utilizing antielectron emanation imaging. Ann Neurol 2000 ; 47: 644-48. Kremer B. Clinical neurology of Huntington s disease. In: Bates G, Harper P, Jones L, eds. Huntington s disease. New York: Oxford University Press, 2002: 3-27. Komure O, Sano A, Nishino N, et Al. Deoxyribonucleic acid analysis in familial dentatorubral-pallidoluysian wasting: correlativity between CAG repetition length and phenotypic fluctuation and the molecular footing of expectancy. Neurology 1995 ; 45: 143-49. Jones L. The cell biological science of Huntington s disease. In: Bates G, Harper P, Jones L, eds. Huntington s disease. New York: Oxford University Press, 2002: 348-62. Laccone F, Engel U, Holinski-Feder E, et Al. DNA analysis of Huntington s disease: fi ve old ages experience in Germany, Australia, and Switzerland. Neurology 1999 ; 53: 801-06. Langbehn DR, Brinkman RR, Falush D, Paulsen JS, Hayden MR.A new theoretical account for anticipation of the age of oncoming and penetrance for Huntington s disease based on CAG length.Clin Genet.2004 ; 65:267-77. MacDonald ME, Vonsattel JP, Shrinidhi J, et Al. Evidence for the GluR6 cistron associated with younger oncoming of Huntington s disease. Neurology 1999 ; 53: 1330-32 Mahant N, McCusker EA, Byth K, Graham S. Huntington s disease: clinical correlatives of disablement and patterned advance. Neurology 2003 ; 61:1085-92. McNeil SM, Novelletto A, Srinidhi J, Barnes G, Kornbluth I, Altherr MR, Wasmuth JJ, Gusella JF, MacDonald ME, Myers RH.Reduced penetrance of the Huntington s disease mutation.Hum Mol Genet.1997 ; 6:775-9. Mills IG, Gaughan L, Robson C, et Al. Huntingtin interacting protein 1 modulates the transcriptional activity of atomic endocrine receptors. J Cell Biol 2005 ; 170: 191-200. Paulsen JS, Zimbelman JL, Hinton SC, et Al. fMRI biomarker of early neural disfunction in preclinical Huntington s disease. AJNR Am J Neuroradiol 2004 ; 25: 1715-21. Peter MF, Nucifora FC Jr, Kushi J, et Al. Nuclear targeting of mutant Huntingtin increases toxicity. Mol Cell Neurosci 1999 ; 14: 121-81. Potter NT, Spector EB, Prior TW.Technical criterions and guidelines for Huntington disease testing.Genet Med.2004 ; 6:61-5. Pridmore SA. The big Huntington s disease household of Tasmania.Med J Aust 1990 ; 153: 593-95. Pulst SM, Nechiporuk A, Nechiporuk T, et Al. Moderate enlargement of a usually biallelic trinucelotide repetition in spinocerebellar ataxy type 2. Nat Genetics 1996 ; 14: 237-38. Rubinsztein DC. Molecular biological science of Huntington s disease ( HD ) and HD-like upsets. In: Pulst S, erectile dysfunction. Geneticss of motion upsets. California: Academic Press, 2003: 365-77. Rubinsztein DC, Leggo J, Coles R, Almqvist E, Biancalana V, Cassiman JJ, Chotai K, Connarty M, Crauford D, Curtis A, Curtis D, Davidson MJ, Differ AM, Dode C, Dodge A, Frontali M, Ranen NG, Stine OC, Sherr M, Abbott MH, Franz ML, Graham CA, Harper PS, Hedreen JC, Hayden MR.et al.Phenotypic word picture of persons with 30-40 CAG repetitions in the Huntington disease ( HD ) cistron reveals HD instances with 36 repetitions and seemingly normal aged persons with 36-39 repeats.Am J Hum Genet.1996 ; 59:16-22. Rubinsztein DC. Molecular biological science of Huntington s disease ( HD ) and HD-like upsets. In: Pulst S, erectile dysfunction. Geneticss of motion upsets. California: Academic Press, 2003: 365-77. Rubinsztein DC, Leggo J, Coles R, et Al. Phenotypic word picture of persons with 30-40 CAG repetitions in the Huntington disease ( HD ) cistron reveals HD instances with 36 repetitions and seemingly normal aged persons with 36-39 repetitions. Am J Hum Genet 1996 ; 59:16-22. Saudou F, Finkbeiner S, Devys D, Greenberg ME. Huntingtin acts in the karyon to bring on programmed cell death but decease does non correlate with the formation of intranuclear inclusions. Cell 1998 ; 95: 55-56. Squitieri F, Cannella M, Simonelli M. CAG mutant eff ect on rate of patterned advance in Huntington s disease. Neurol Sci 2002 ; 23 ( suppl 2 ) : S107-08. Squitieri F, Gellera C, Cannella M, et Al. Homozygosity for CAG mutant in Huntington s disease is associated with a more terrible clinical class. Brain 2003 ; 126: 946-55. Stober T, Wussow W, Schimrigk K. Bicaudate diameter: the most specifi degree Celsius and simple CT parametric quantity in the diagnosing of Huntington s disease. Neuroradiology 1984 ; 26: 25-28. OHearn E, Holmes SE, Calvert PC, et Al. SCA-12: shudder with cerebellar and cortical wasting is associated with a CAG repetition enlargement. Neurology 2001 ; 56: 299-303. Walker FO.Huntington s disease.Lancet.2007 ; 369:218-28. Wellington CL, Leavitt BR, Hayden MR. Huntington disease: new penetrations on the function of huntingtin cleavage. J Neural Transm Suppl 2000 ; 58: 1-17.
Subscribe to:
Post Comments (Atom)
No comments:
Post a Comment
Note: Only a member of this blog may post a comment.