Friday, April 5, 2019
Genetic Causes of Choroideremia (CHM)
Genetic Causes of Choroideremia (CHM)Choroideremia (CHM) is a rare cistrontic injury of the CHM cistron, located on the X sex chromosome, that affects vision, as the retina, a crucial part of the eye touch on in sight, loses functionality. This condition affects 1 out of 50,000 to 100,000 and is 4% of all causes of blindness in humans (GHR, 2017). Choroideremia is a sex-linked recessive trait, which means that females who do not express the trait are called carriers because only genius of their X-chromosomes has the recessive trait, which is masked by the dominant trait of not having the condition. For males, it only takes the m opposites stirred X-chromosome to become affected by CHM for life (GHR, 2017). With the assistance from adeno-associated virus gene therapy, conditions standardized Choroideremia can be treated and cured.The CHM gene on the X-chromosome is responsible for producing the Rab escort protein-1 (REP-1), however if the CHM gene is mutated or absent, the d eprivation of REP-1 CHM is supposed to produce causes electric cellular telephone death in the retina, causing Choroideremia (Mura, 2007). Escort proteins are the cells traffic facilitator, regulating intracellular proteins, organelles, and matter. Rab proteins are characterized by their geranylgeranyl functional group, a fundamental structure involved in prenylation, which is important in binding proteins (Preising, 2005). REP-1 allows for other essential proteins to enter cells, allowing for cellular processes to occur. Choroideremia occurs when the CHM gene fails to produce the REP-1. If there happens to be a lack of REP-1, the frame has a backup, REP-2, that can perform nearly all of the same processes as REP-1, except there is tiny to no REP-2 present in the retina, which is why Choroideremia exists. With the absence of REP-1, the cells lack the facilitator required for them to do their work, resulting with premature cell death, or dystrophy (NCBI, 2016).Choroideremia can be treated, and possibly cured, with the use of adeno-associated viruses (AAV) because of its ability to target views on chromosomes. The adeno-associated virus was discovered in the 1960s as a contaminant of adenovirus (Weitzman and Linden, 2011), and was seen as a useless virus because it required the assistance of another virus in order to replicate (Gonalves, 2005). However, the adeno-associated virus is admired for its effectual abilities. The adeno-associated virus is admired for its simple structure, consisting of single-stranded DNA with genomes that are controlled by hairpin shaped telomere structures (Cotmore and Tattersall, 2014). Another peculiarity of the AAV is the precise targeting of Chromosome 19 in fact, the AAV is known as one of the only viruses with much(prenominal) capacity to specifically act upon on one chromosome nearly 96% of the time (Daya and Berns, 2008). A crucial aspect rough the adeno-associated virus is that it lacks pathogenicity, which means it does not cause disease in its host nor does it cause cell death. It is the lack of pathogenicity that has allowed medical professionals to pursue new treatments for contractableally caused diseases.Because AAVs can act on a specific location on a chromosome without killing the host cell, treating sex-linked traits has become a reality. A clinical battlefield used stem cells from patients with CHM and experimented the virus abilities with an in vitro model using CHO cells, which transferred the hCHM, human CHM DNA, into mice eyeballs to view the precision of genetic transfer. The results revealed that the CHO cells had elevated levels of the REP-1 protein levels, indicating that the introduction of AAV was able to specifically target the X-chromosome and alter the CHM gene. For the hCHM, it responded well to the application of AAV, as REP-1 proteins change magnitude with regular dosage of AAV and compared to control cells, there was a 50-fold amount of REP-1 protein levels with th e treated hCHM cells, indicating that AAV is a very brilliant option for gene therapy (Vasireddy, 2013). A 2014 clinical trial decided to directly administer an AAV encoding REP-1 to sestet mature males with Choroideremia (all with little ability to see), waiting for six months after the trial to evaluate the effects of naked as a jaybird AAV administration. The results reveal all of the test subjects gained eyesight from the treatment, as their lines of vision increased as well as increased levels of retinal sensitivity (MacLaren, 2014). With a single mutation in a genetic sequence, life-changing conditions, like Choroideremia, leave people impaired for the remainder of their lives. However, with the assistance of adeno-associated viruses, researchers are able to treat and cure such conditions permanently.Citations/ReferencesMatthew D. Weitzman and R. Michael Linden (2011). Adeno-Associated Virus Biology. Retrieved December 30, 2016, from http//www.hixonparvo.info/Matt%20AAV%20b ook%20chaptor.pdfManuel Gonalves (2005). Adeno-associated virus from defective virus to effective vector. Retrieved December 30, 2016, from https//virologyj.biomedcentral.com/articles/10.1186/1743-422X-2-43Susan F. Cotmore and hammer Tattersall (2014). Parvoviruses Small does not mean simple. Retrieved January 6, 2017, from http//www.annualreviews.org/doi/abs/10.1146/annurev-virology-031413-085444Choroideremia Genetics Home Reference (GHR). (2017, January 10). Retrieved January 11, 2017, from https//ghr.nlm.nih.gov/condition/choroideremiagenesCHM CHM, Rab escort protein 1 Homo sapiens (human) Gene NCBI. (2016, December 21). Retrieved January 11, 2017, from https//www.ncbi.nlm.nih.gov/gene/1121Vasireddy V, Mills JA, Gaddameedi R, Basner-Tschakarjan E, Kohnke M, Black AD, et al. (2013) AAV-Mediated Gene Therapy for Choroideremia Preclinical Studies in alter Models. PLoS ONE 8(5) e61396. doi10.1371/journal.pone.0061396. Retrieved January 11, 2017, from http//journals.plos.org/plos one/article/authors?id=10.1371/journal.pone.0061396Preising, M., and C. Ayuso. Rab Escort Protein 1 (REP1) in Intracellular Traffic A available and Pathophysiological Overview. Retrieved Retrieved January 11, 2017, from https//www.ncbi.nlm.nih.gov/pubmed/15370541Mura M, Sereda C, Jablonski MM, MacDonald IM, Iannaccone A. Clinical and functional findings in choroideremia due to complete deletion of the CHM gene. Retrieved Retrieved January 11, 2017, from https//www.ncbi.nlm.nih.gov/pubmed/?term=17698759MacLaren RE, Groppe M, Barnard AR, Cottriall CL, Tolmachova T, Seymour L, Clark KR, During MJ, Cremers FP, Black GC, Lotery AJ, Downes SM, Webster AR, Seabra MC. Retinal gene therapy in patients with choroideremia initial findings from a phase 1/2 clinical trial.Retrieved January 11, 2017, from https//www.ncbi.nlm.nih.gov/pubmed/?term=24439297
Subscribe to:
Post Comments (Atom)
No comments:
Post a Comment