PURPOSE: To develop methods for obtaining high quality RNA from human donor eyes and to determine the expression profile of the congenital glaucoma gene FOXC1 in human ocular tissues. METHODS: To obtain high quality RNA from donor eyes, several different preservation methods were tested including storing eyes on ice, freezing eyes, and placing eyes in the commercial fixative RNAlaterTM prior to dissection and RNA extraction. Nine different ocular tissues from human donors were dissected and examined. Pigment-free total RNA was isolated and used for quantitative real-time RT-PCR using FOXC1 and GAPDH (internal standard) primers to assess the quality and expression of FOXC1. RESULTS: An expression profile of FOXC1 in human ocular tissues was determined using quantitative PCR of RNA isolated using a simple and effective procedure for ocular tissue preservation and pigment-free RNA isolation. Higher quality RNA was obtained from human donor eyes preserved in RNAlaterTM compared to RNA extracted from eyes stored on ice or frozen at -80 degrees C. RNA extraction techniques that removed interfering pigment from ocular tissues produced RNA that could be easily amplified by PCR. In the adult human eye, expression of FOXC1 was greatest in the trabecular meshwork (TM) followed by the optic nerve head, choroid/RPE, ciliary body, cornea, and iris. FOXC1 expression levels were much lower in other non-ocular human tissues, such as liver, muscle, lung, heart, and kidney. CONCLUSIONS: Using an optimized donor eye preservation method and tissue RNA isolation procedure, we show that the FOXC1 transcription factor gene, which is known to be associated with developmental glaucoma, also may have an important role in the adult eye.
PURPOSE: To develop methods for obtaining high quality RNA from humandonor eyes and to determine the expression profile of the congenital glaucoma gene FOXC1 in human ocular tissues. METHODS: To obtain high quality RNA from donor eyes, several different preservation methods were tested including storing eyes on ice, freezing eyes, and placing eyes in the commercial fixative RNAlaterTM prior to dissection and RNA extraction. Nine different ocular tissues from human donors were dissected and examined. Pigment-free total RNA was isolated and used for quantitative real-time RT-PCR using FOXC1 and GAPDH (internal standard) primers to assess the quality and expression of FOXC1. RESULTS: An expression profile of FOXC1 in human ocular tissues was determined using quantitative PCR of RNA isolated using a simple and effective procedure for ocular tissue preservation and pigment-free RNA isolation. Higher quality RNA was obtained from humandonor eyes preserved in RNAlaterTM compared to RNA extracted from eyes stored on ice or frozen at -80 degrees C. RNA extraction techniques that removed interfering pigment from ocular tissues produced RNA that could be easily amplified by PCR. In the adult human eye, expression of FOXC1 was greatest in the trabecular meshwork (TM) followed by the optic nerve head, choroid/RPE, ciliary body, cornea, and iris. FOXC1 expression levels were much lower in other non-ocular human tissues, such as liver, muscle, lung, heart, and kidney. CONCLUSIONS: Using an optimized donor eye preservation method and tissue RNA isolation procedure, we show that the FOXC1 transcription factor gene, which is known to be associated with developmental glaucoma, also may have an important role in the adult eye.
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