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1.
PLoS Biol ; 21(10): e3002336, 2023 10.
Artículo en Inglés | MEDLINE | ID: mdl-37856539

RESUMEN

The transparent corneal epithelium in the eye is maintained through the homeostasis regulated by limbal stem cells (LSCs), while the nontransparent epidermis relies on epidermal keratinocytes for renewal. Despite their cellular similarities, the precise cell fates of these two types of epithelial stem cells, which give rise to functionally distinct epithelia, remain unknown. We performed a multi-omics analysis of human LSCs from the cornea and keratinocytes from the epidermis and characterized their molecular signatures, highlighting their similarities and differences. Through gene regulatory network analyses, we identified shared and cell type-specific transcription factors (TFs) that define specific cell fates and established their regulatory hierarchy. Single-cell RNA-seq (scRNA-seq) analyses of the cornea and the epidermis confirmed these shared and cell type-specific TFs. Notably, the shared and LSC-specific TFs can cooperatively target genes associated with corneal opacity. Importantly, we discovered that FOSL2, a direct PAX6 target gene, is a novel candidate associated with corneal opacity, and it regulates genes implicated in corneal diseases. By characterizing molecular signatures, our study unveils the regulatory circuitry governing the LSC fate and its association with corneal opacity.


Asunto(s)
Opacidad de la Córnea , Epitelio Corneal , Limbo de la Córnea , Humanos , Limbo de la Córnea/metabolismo , Córnea/metabolismo , Epitelio Corneal/metabolismo , Factores de Transcripción/genética , Factores de Transcripción/metabolismo , Diferenciación Celular/genética , Opacidad de la Córnea/metabolismo
2.
Indian J Ophthalmol ; 70(12): 4119-4129, 2022 12.
Artículo en Inglés | MEDLINE | ID: mdl-36453299

RESUMEN

Aniridia is a pan-ocular genetic developmental eye disorder characterized by complete or partial iris and foveal hypoplasia, for which there is no treatment currently. Progressive sight loss can arise from cataracts, glaucoma, and aniridia-related keratopathy, which can be managed conservatively or through surgical intervention. The vast majority of patients harbor heterozygous mutations involving the PAX6 gene, which is considered the master transcription factor of early eye development. Over the past decades, several disease models have been investigated to gain a better understanding of the molecular pathophysiology, including several mouse and zebrafish strains and, more recently, human-induced pluripotent stem cells (hiPSCs) derived from aniridia patients. The latter provides a more faithful cellular system to study early human eye development. This review outlines the main aniridia-related animal and cellular models used to study aniridia and highlights the key discoveries that are bringing us closer to a therapy for patients.


Asunto(s)
Aniridia , Catarata , Glaucoma , Humanos , Animales , Ratones , Pez Cebra , Aniridia/diagnóstico , Aniridia/genética , Iris , Factor de Transcripción PAX6/genética
3.
Ther Adv Rare Dis ; 2: 2633004021997447, 2021.
Artículo en Inglés | MEDLINE | ID: mdl-37181112

RESUMEN

Microphthalmia is a rare developmental eye disorder affecting 1 in 7000 births. It is defined as a small (axial length ⩾2 standard deviations below the age-adjusted mean) underdeveloped eye, caused by disruption of ocular development through genetic or environmental factors in the first trimester of pregnancy. Clinical phenotypic heterogeneity exists amongst patients with varying levels of severity, and associated ocular and systemic features. Up to 11% of blind children are reported to have microphthalmia, yet currently no treatments are available. By identifying the aetiology of microphthalmia and understanding how the mechanisms of eye development are disrupted, we can gain a better understanding of the pathogenesis. Animal models, mainly mouse, zebrafish and Xenopus, have provided extensive information on the genetic regulation of oculogenesis, and how perturbation of these pathways leads to microphthalmia. However, differences exist between species, hence cellular models, such as patient-derived induced pluripotent stem cell (iPSC) optic vesicles, are now being used to provide greater insights into the human disease process. Progress in 3D cellular modelling techniques has enhanced the ability of researchers to study interactions of different cell types during eye development. Through improved molecular knowledge of microphthalmia, preventative or postnatal therapies may be developed, together with establishing genotype-phenotype correlations in order to provide patients with the appropriate prognosis, multidisciplinary care and informed genetic counselling. This review summarises some key discoveries from animal and cellular models of microphthalmia and discusses how innovative new models can be used to further our understanding in the future. Plain language summary: Animal and Cellular Models of the Eye Disorder, Microphthalmia (Small Eye) Microphthalmia, meaning a small, underdeveloped eye, is a rare disorder that children are born with. Genetic changes or variations in the environment during the first 3 months of pregnancy can disrupt early development of the eye, resulting in microphthalmia. Up to 11% of blind children have microphthalmia, yet currently no treatments are available. By understanding the genes necessary for eye development, we can determine how disruption by genetic changes or environmental factors can cause this condition. This helps us understand why microphthalmia occurs, and ensure patients are provided with the appropriate clinical care and genetic counselling advice. Additionally, by understanding the causes of microphthalmia, researchers can develop treatments to prevent or reduce the severity of this condition. Animal models, particularly mice, zebrafish and frogs, which can also develop small eyes due to the same genetic/environmental changes, have helped us understand the genes which are important for eye development and can cause birth eye defects when disrupted. Studying a patient's own cells grown in the laboratory can further help researchers understand how changes in genes affect their function. Both animal and cellular models can be used to develop and test new drugs, which could provide treatment options for patients living with microphthalmia. This review summarises the key discoveries from animal and cellular models of microphthalmia and discusses how innovative new models can be used to further our understanding in the future.

4.
JCI Insight ; 6(14)2021 07 22.
Artículo en Inglés | MEDLINE | ID: mdl-34101622

RESUMEN

Aniridia is most commonly caused by haploinsufficiency of the PAX6 gene, characterized by variable iris and foveal hypoplasia, nystagmus, cataracts, glaucoma, and aniridia-related keratopathy (ARK). Genotype-phenotype correlations have previously been described; however, detailed longitudinal studies of aniridia are less commonly reported. We identified 86 patients from 62 unrelated families with molecularly confirmed heterozygous PAX6 variants from a UK-based single-center ocular genetics service. They were categorized into mutation groups, and a retrospective review of clinical characteristics (ocular and systemic) from baseline to most recent was recorded. One hundred and seventy-two eyes were evaluated, with a mean follow-up period of 16.3 ± 12.7 years. Nystagmus was recorded in 87.2% of the eyes, and foveal hypoplasia was found in 75%. Cataracts were diagnosed in 70.3%, glaucoma in 20.6%, and ARK in 68.6% of eyes. Prevalence, age of diagnosis and surgical intervention, and need for surgical intervention varied among mutation groups. Overall, the missense mutation subgroup had the mildest phenotype, and surgically naive eyes maintained better visual acuity. Systemic evaluation identified type 2 diabetes in 12.8% of the study group, which is twice the UK prevalence. This is the largest longitudinal study of aniridia in the UK, and as such, it can provide insights into prognostic indicators for patients and guiding clinical management of both ocular and systemic features.


Asunto(s)
Aniridia/genética , Catarata/genética , Diabetes Mellitus Tipo 2/genética , Glaucoma/genética , Nistagmo Congénito/genética , Factor de Transcripción PAX6/genética , Adolescente , Adulto , Aniridia/complicaciones , Catarata/diagnóstico , Niño , Análisis Mutacional de ADN , Diabetes Mellitus Tipo 2/diagnóstico , Femenino , Estudios de Seguimiento , Fóvea Central/anomalías , Estudios de Asociación Genética , Glaucoma/diagnóstico , Haploinsuficiencia , Heterocigoto , Humanos , Estudios Longitudinales , Masculino , Persona de Mediana Edad , Nistagmo Congénito/diagnóstico , Linaje , Adulto Joven
5.
Stem Cell Res ; 54: 102449, 2021 07.
Artículo en Inglés | MEDLINE | ID: mdl-34216980

RESUMEN

Induced pluripotent stem cell (iPSC) lines were generated from two patients with RDH12 variants. UCLi014-A is from a patient with heterozygous frameshift mutation c.759del p.(Phe254Leufs*24), associated with autosomal dominant retinitis pigmentosa. UCLi015-A is from a patient with homozygous missense mutation c.619A > G p.(Asn207Asp), associated with Leber congenital amaurosis. Fibroblasts were derived from skin biopsies and reprogrammed using integration free episomal reprogramming plasmids. The iPSC lines expressed pluripotency markers, exhibited differentiation potential in vitro and displayed normal karyotypes. These cell lines will act as a tool for disease modelling, enabling comparison of disease mechanisms, identification of therapeutic targets and drug screening.


Asunto(s)
Células Madre Pluripotentes Inducidas , Amaurosis Congénita de Leber , Retinitis Pigmentosa , Oxidorreductasas de Alcohol/genética , Línea Celular , Heterocigoto , Humanos , Amaurosis Congénita de Leber/genética , Mutación , Retinitis Pigmentosa/genética
6.
JCI Insight ; 6(9)2021 05 10.
Artículo en Inglés | MEDLINE | ID: mdl-33755601

RESUMEN

Choroideremia (CHM) is an X-linked recessive chorioretinal dystrophy caused by mutations in CHM, encoding for Rab escort protein 1 (REP1). Loss of functional REP1 leads to the accumulation of unprenylated Rab proteins and defective intracellular protein trafficking, the putative cause for photoreceptor, retinal pigment epithelium (RPE), and choroidal degeneration. CHM is ubiquitously expressed, but adequate prenylation is considered to be achieved, outside the retina, through the isoform REP2. Recently, the possibility of systemic features in CHM has been debated; therefore, in this study, whole metabolomic analysis of plasma samples from 25 CHM patients versus age- and sex-matched controls was performed. Results showed plasma alterations in oxidative stress-related metabolites, coupled with alterations in tryptophan metabolism, leading to significantly raised serotonin levels. Lipid metabolism was disrupted with decreased branched fatty acids and acylcarnitines, suggestive of dysfunctional lipid oxidation, as well as imbalances of several sphingolipids and glycerophospholipids. Targeted lipidomics of the chmru848 zebrafish provided further evidence for dysfunction, with the use of fenofibrate over simvastatin circumventing the prenylation pathway to improve the lipid profile and increase survival. This study provides strong evidence for systemic manifestations of CHM and proposes potentially novel pathomechanisms and targets for therapeutic consideration.


Asunto(s)
Proteínas Adaptadoras Transductoras de Señales/genética , Coroideremia/metabolismo , Metabolismo de los Lípidos/genética , Estrés Oxidativo/genética , Proteínas de Pez Cebra/genética , Adulto , Animales , Estudios de Casos y Controles , Coroideremia/genética , Fenofibrato/farmacología , Glicerofosfolípidos/metabolismo , Humanos , Hipolipemiantes/farmacología , Metabolismo de los Lípidos/efectos de los fármacos , Lipidómica , Masculino , Metabolómica , Persona de Mediana Edad , Prenilación , Serotonina/metabolismo , Simvastatina/farmacología , Esfingolípidos/metabolismo , Triptófano/metabolismo , Adulto Joven , Pez Cebra
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