Paraspeckles: possible nuclear hubs by the RNA for the RNA.

Abstract

Abstract The mammalian cell nucleus is a highly compartmentalized system in which multiple subnuclear structures, called nuclear bodies, exist in the nucleoplasmic spaces. Some of the nuclear bodies contain specific long non-coding RNAs (ncRNAs) as their components, and may serve as sites for long ncRNA functions that remain largely enigmatic. A paraspeckle is a nuclear body that is almost ubiquitously observed in mammalian cultured cells but is cell population-specific in adult mouse tissue. The paraspeckle structure is RNase-sensitive. Long ncRNAs, termed MENε/β ncRNAs (also referred to as NEAT1 ncRNAs), have been identified as the RNA components of the paraspeckles. Specific elimination has revealed that MENε/β ncRNAs are essential components for the formation of the intact paraspeckle structure. Paraspeckle formation requires the continual MENε/β ncRNA biogenesis process, including ongoing transcription, alternative 3'-end processing, and stabilization. Some paraspeckle-localized RNA-binding proteins (p54/nrb and PSF) direct paraspeckle formation through the selective stabilization of MENβ ncRNA. Both MENε/β ncRNA expression and their subsequent interactions with paraspeckle proteins can be regulated under environmental and developmental conditions, which are reflected in the size and number of the paraspeckles. However, how paraspeckles function remains largely unsolved. Paraspeckles appear to serve as the site of nuclear retention of specific mRNAs that are selectively transported to the cytoplasm upon certain signals. Alternatively, MENε/β ncRNAs may sequester paraspeckle proteins that function outside the paraspeckles. This review focuses on known aspects of paraspeckles and provides a model of their structure and function.