Nuclear pore complexes are multicomponent assemblies that support nucleocytoplasmic transport and contribute to gene regulation. Some nuclear pore components are also known to bind chromatin and affect gene expression in the nuclear interior, away from sites of transport. In this review, we discuss chromatin-binding functions of intranuclear nuclear pore proteins and highlight their identity as components of chromatin regulatory complexes.

Nuclear pore complexes are large multicomponent protein complexes that are embedded in the nuclear envelope, where they mediate nucleocytoplasmic transport. In addition to supporting transport, nuclear pore components, termed nucleoporins (Nups), can interact with chromatin and influence genome function. A subset of Nups can also localize to the nuclear interior and bind chromatin intranuclearly, providing an opportunity to investigate chromatin-associated functions of Nups outside of the transport context. This review focuses on the gene regulatory functions of such intranuclear Nups, with a particular emphasis on their identity as components of several chromatin regulatory complexes. Recent proteomic screens have identified Nups as interacting partners of active and repressive epigenetic machinery, architectural proteins, and DNA replication complexes, providing insight into molecular mechanisms via which Nups regulate gene expression programs. This review summarizes these interactions and discusses their potential functions in the broader framework of nuclear genome organization.