Abstract
Ciliopathies affect a variety of tissues during development including the heart, kidneys, respiratory tract, and retina. Though an increasing number of monogenic causes of ciliopathies have been described, many remain unexplained. Recently, recessive variants in NUP93 and NUP205 encoding two proteins of the inner ring of the nuclear pore complex were implicated as causes of steroid resistant nephrotic syndrome. In addition, we previously found that the inner ring nucleoporins NUP93 and NUP188 function in proper left-right patterning in developing embryos via a role at the cilium. Here, we describe the role of an additional inner ring nucleoporin NUP205 in cilia biology and establishment of normal organ situs. Using knockdown in Xenopus, we show that Nup205 depletion results in loss of cilia and abnormal cardiac morphology. Furthermore, by transmission electron microscopy, we observe a loss of cilia and mispositioning of intracellular ciliary structures such as basal bodies and rootlets upon depleting inner ring nucleoporins. We describe a model wherein NUP93 interacting with either NUP188 or NUP205 is necessary for cilia. We thus provide evidence that dysregulation of inner ring nucleoporin genes that have been identified in patients may contribute to pathogenesis through cilia dysfunction.
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