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Query: UNIPROT:Q00604 (
X-linked
)
16,883
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Choroideremia is an
X-linked
inherited chorioretinal dystrophy leading to blindness by late adulthood. Choroideremia is caused by mutations in the
CHM
gene which encodes
Rab escort protein 1
(
REP1
), an ubiquitously expressed protein involved in intracellular trafficking and prenylation activity. The exact site of pathogenesis remains unclear but results in degeneration of the photoreceptors, retinal pigment epithelium and choroid. Animal and stem cell models have been used to study the molecular defects in
choroideremia
and test effectiveness of treatment interventions. Natural history studies of
choroideremia
have provided additional insight into the clinical phenotype of the condition and prepared the way for clinical trials aiming to investigate the safety and efficacy of suitable therapies. In this review, we provide a summary of the current knowledge on the genetics, pathophysiology, clinical features and therapeutic strategies that might become available for
choroideremia
in the future, including gene therapy, stem cell treatment and small-molecule drugs with nonsense suppression action.
...
PMID:Choroideremia: from genetic and clinical phenotyping to gene therapy and future treatments. 3062 97
Lineage tracing can provide key insights into the development of tissues, such as the retina. Yet it is not possible to manipulate human cells during embryogenesis. The authors observed a distinct phenotype in female carriers of
X-linked
disorders, in particular, carriers of
choroideremia
caused by mutations in CHM, encoding Rab escort protein-1. The authors found that X chromosome inactivation provides a method for retinal lineage tracing in human patients. Live imaging of female carriers displays a developmental pattern that is different within the peripheral retina compared with the posterior retina and provides important insights into the development and migration of retinal cells. [Ophthalmic Surg Lasers Imaging Retina. 2019;50:e158-e162.].
...
PMID:Insights into Retinal Development Using Live Imaging in Female Carriers of Choroideremia. 3110 Jan 69
Objective:
Microperimetry (MP) is used to assess visual sensitivity mediated by the central retina. As such, MP performance is a candidate outcome measure for gene therapy trials. Herein, we review MP results in three inherited retinal disorders for which gene therapy trials have been initiated-
choroideremia
, Stargardt disease, and
X-linked
juvenile retinoschisis. Each of these disorders typically presents in childhood and each has distinct effects on the central retina.
Outcomes and Results:
Our review indicates that microperimetry is feasible in each of these conditions. The MP sensitivity maps vary among conditions consistent with known effects of each of the three conditions. There is, however, within each of the three disorders considerable variability in fixation stability and in the pattern of sensitivity loss.
Conclusions:
Microperimetry is a valuable tool for monitoring functional aspects of central retina in an individual patient, especially in combination with other modalities such as OCT, autofluorescence, and acuity and thus may contribute to evaluating the efficacy of gene treatments. Variability of the MP parameters raises some cautions in application of MP as an outcome measure in treatment trials that may have small sample sizes. Nonetheless, we suspect that MP will continue to have a rightful place in future gene therapy trials.
...
PMID:Microperimetry in Three Inherited Retinal Disorders. 3114 12
Choroideremia (CHM) is an
X-linked
chorioretinal dystrophy characterized by progressive degeneration of the choroid, retinal pigment epithelium and retina. This disease is caused by mutations in the
X-linked
CHM gene encoding a Ras-related GTPase Rab escort protein (REP)-1, which is extremely important for the retinal function. Clinically, male-affected patients have a progressive reduction in visual acuity. This disease is formally considered incurable, although new promising treatments have been recently introduced. In this article, a review of the salient pathogenetic features of
choroideremia
, essential for the proper interpretation of therapeutic approaches, is followed by a discussion of the fundamental clinical features of this hereditary disease. Finally, relevant new therapeutic approaches in this disease will be discussed, including gene therapy, stem cells, small molecules, and retinal prosthesis.
...
PMID:Choroideremia: Update On Clinical Features And Emerging Treatments. 3181 46
X-linked
retinopathies represent a significant proportion of monogenic retinal disease. They include progressive and stationary conditions, with and without syndromic features. Many are X-linked recessive, but several exhibit a phenotype in female carriers, which can help establish diagnosis and yield insights into disease mechanisms. The presence of affected carriers can misleadingly suggest autosomal dominant inheritance. Some disorders (such as RPGR-associated retinopathy) show diverse phenotypes from variants in the same gene and also highlight limitations of current genetic sequencing methods.
X-linked
disease frequently arises from loss of function, implying potential for benefit from gene replacement strategies. We review X-inactivation and
X-linked
inheritance, and explore burden of disease attributable to
X-linked
genes in our clinically and genetically characterised retinal disease cohort, finding correlation between gene transcript length and numbers of families. We list relevant genes and discuss key clinical features, disease mechanisms, carrier phenotypes and novel experimental therapies. We consider in detail the following: RPGR (associated with retinitis pigmentosa, cone and cone-rod dystrophy), RP2 (retinitis pigmentosa), CHM (
choroideremia
), RS1 (X-linked retinoschisis), NYX (complete congenital stationary night blindness (CSNB)), CACNA1F (incomplete CSNB), OPN1LW/OPN1MW (blue cone monochromacy, Bornholm eye disease, cone dystrophy), GPR143 (ocular albinism), COL4A5 (Alport syndrome), and
NDP
(Norrie disease and
X-linked
familial exudative vitreoretinopathy (FEVR)). We use a recently published transcriptome analysis to explore expression by cell-type and discuss insights from electrophysiology. In the final section, we present an algorithm for genes to consider in diagnosing males with non-syndromic
X-linked
retinopathy, summarise current experimental therapeutic approaches, and consider questions for future research.
...
PMID:The X-linked retinopathies: Physiological insights, pathogenic mechanisms, phenotypic features and novel therapies. 3286 Sep 23
Choroideremia is an
X-linked
chorioretinal dystrophy caused by mutations in the
CHM
gene. Several
CHM
gene replacement clinical trials are in advanced stages. In this study, we report the molecular confirmation of
choroideremia
in 14 Australian families sourced from the Australian Inherited Retinal Disease Registry and DNA Bank. Sixteen males (14 symptomatic) and 18 females (4 symptomatic; 14 obligate carriers) were identified for analysis. Participants' DNA was analyzed for disease-causing
CHM
variants by Sanger sequencing, TaqMan qPCR and targeted NGS. We report phenotypic and genotypic data for the 14 symptomatic males and four females manifesting disease symptoms. A pathogenic or likely pathogenic
CHM
variant was detected in all families. Eight variants were previously reported, and five were novel. Two
de novo
variants were identified. We previously reported the molecular confirmation of
choroideremia
in 11 Australian families. This study expands the
CHM
genetically confirmed Australian cohort to 32 males and four affected carrier females.
...
PMID:Expanding the genetic spectrum of choroideremia in an Australian cohort: report of five novel
CHM
variants. 3311 Jun 9
X-linked
choroideremia
(
CHM
) is a disease characterized by gradual retinal degeneration caused by loss of the Rab Escort Protein, REP1. Despite partial compensation by REP2 the disease is characterized by prenylation defects in multiple members of the Rab protein family that are master regulators of membrane traffic. Remarkably, the eye is the only organ affected in
CHM
patients, possibly because of the huge membrane traffic burden of the post mitotic photoreceptors, which synthesise outer segments, and the adjacent retinal pigment epithelium that degrades the spent portions each day. In this study, we aimed to identify defects in membrane traffic that might lead to photoreceptor cell death in
CHM
. In a heterozygous null female mouse model of
CHM
(Chmnull/WT), degeneration of the photoreceptor layer was clearly evident from increased numbers of TUNEL positive cells compared to age matched controls, small numbers of cells exhibiting signs of mitochondrial stress and greatly increased microglial infiltration. However, most rod photoreceptors exhibited remarkably normal morphology with well-formed outer segments and no discernible accumulation of transport vesicles in the inner segment. The major evidence of membrane trafficking defects was a shortening of rod outer segments that was evident at 2 months of age but remained constant over the period during which the cells die. A decrease in rhodopsin density found in the outer segment may underlie the outer segment shortening but does not lead to rhodopsin accumulation in the inner segment. Our data argue against defects in rhodopsin transport or outer segment renewal as triggers of cell death in
CHM
.
...
PMID:Chronically shortened rod outer segments accompany photoreceptor cell death in Choroideremia. 3320 97
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