GLIS1 regulates trabecular meshwork function and intraocular pressure and is associated with glaucoma in humans.
K Saidas NairChitrangda SrivastavaRobert V BrownSwanand KoliHelene ChoquetHong Soon KangYien-Ming KuoSara A GrimmCaleb SutherlandAlexandra BadeaG Allan JohnsonYin ZhaoJie YinKyoko OkamotoGraham ClarkTerete BorrásGulab S ZodeKrishnakumar KizhatilSubhabrata ChakrabartiSimon W M JohnEric JorgensenAnton M JettenPublished in: Nature communications (2021)
Chronically elevated intraocular pressure (IOP) is the major risk factor of primary open-angle glaucoma, a leading cause of blindness. Dysfunction of the trabecular meshwork (TM), which controls the outflow of aqueous humor (AqH) from the anterior chamber, is the major cause of elevated IOP. Here, we demonstrate that mice deficient in the Krüppel-like zinc finger transcriptional factor GLI-similar-1 (GLIS1) develop chronically elevated IOP. Magnetic resonance imaging and histopathological analysis reveal that deficiency in GLIS1 expression induces progressive degeneration of the TM, leading to inefficient AqH drainage from the anterior chamber and elevated IOP. Transcriptome and cistrome analyses identified several glaucoma- and extracellular matrix-associated genes as direct transcriptional targets of GLIS1. We also identified a significant association between GLIS1 variant rs941125 and glaucoma in humans (P = 4.73 × 10-6), further supporting a role for GLIS1 into glaucoma etiology. Our study identifies GLIS1 as a critical regulator of TM function and maintenance, AqH dynamics, and IOP.
Keyphrases
- extracellular matrix
- genome wide
- magnetic resonance imaging
- gene expression
- optic nerve
- transcription factor
- bone mineral density
- poor prognosis
- multiple sclerosis
- dna methylation
- metabolic syndrome
- oxidative stress
- type diabetes
- rna seq
- binding protein
- skeletal muscle
- heat shock protein
- replacement therapy
- ultrasound guided
- smoking cessation
- wild type