AbstractA critical step in eye development is closure of the choroid fissure (CF), a transient structure in the ventral optic cup through which vasculature enters the eye and ganglion cell axons exit. While many factors have been identified that function during CF closure, the molecular and cellular mechanisms mediating this process remain poorly understood. Failure of CF closure results in colobomas. Recently, MITF was shown to be mutated in a subset of human coloboma patients, but how MITF functions during CF closure is unknown. To address this question, zebrafish with mutations in mitfa and tfec, two members of the Mitf-family of transcription factors, were analyzed and their functions during CF closure determined. mitfa;tfec mutants possess severe colobomas and our data demonstrate that Mitf activity is required within cranial neural crest cells (cNCCs) to facilitate CF closure. In the absence of Mitf function, cNCC migration and localization in the optic cup are perturbed. These data shed light on the cellular mechanisms underlying colobomas in patients with MITF mutations and identify a novel role for Mitf function in cNCCs during CF closure.Summary StatementMitf-family transcription factors act within cranial neural crest cells to promote choroid fissure closure. Without Mitf-family function, cNCC localization and function in the CF is disrupted, thus contributing to colobomas.
Expression and function of transcription factor cMyb during cranial neural crest development