Cyclin switch tailors a cell cycle variant to orchestrate multiciliogenesis.

Meiosis, endoreplication, and asynthetic fissions are variations of the canonical cell cycle where either replication or mitotic divisions are muted. Here, we identify a cell cycle variantconserved across organs and mammals, where both replication and mitosis are muted, and that orchestrates the differentiation of post-mitotic progenitors into multiciliated cells (MCCs). MCC progenitors reactivate most of the cell cycle transcriptional program but replace the temporal expression of cyclins E2 and A2 with non-canonical cyclins O and A1.

Cyclin O controls entry into the cell-cycle variant required for multiciliated cell differentiation.

Multiciliated cells (MCCs) ensure fluid circulation in various organs. Their differentiation is marked by the amplification of cilia-nucleating centrioles, driven by a genuine cell-cycle variant, which is characterized by wave-like expression of canonical and non-canonical cyclins such as Cyclin O (CCNO). Patients with CCNO mutations exhibit a subtype of primary ciliary dyskinesia called reduced generation of motile cilia (RGMC).

Neuro-cognitive multilevel causal modeling: A framework that bridges the explanatory gap between neuronal activity and cognition.

Explaining how neuronal activity gives rise to cognition arguably remains the most significant challenge in cognitive neuroscience. We introduce neuro-cognitive multilevel causal modeling (NC-MCM), a framework that bridges the explanatory gap between neuronal activity and cognition by construing cognitive states as (behaviorally and dynamically) causally consistent abstractions of neuronal states. Multilevel causal modeling allows us to interchangeably reason about the neuronal- and cognitive causes of behavior while maintaining a physicalist (in contrast to a strong dualist) position.

Actin-based deformations of the nucleus control mouse multiciliated ependymal cell differentiation.

Ependymal cells (ECs) are multiciliated cells in the brain that contribute to cerebrospinal fluid flow. ECs are specified during embryonic stages but differentiate later in development. Their differentiation depends on genes such as GEMC1 and MCIDAS in conjunction with E2F4/5 as well as on cell-cycle-related factors.

DIAGNOSTIC YIELD OF AN INHERITED RETINAL DISEASE GENE PANEL IN RETINOPATHY OF UNKNOWN ORIGIN.

Purpose: Evaluating the presence of class 3, 4, and 5 genetic variants in inherited retinal disease (IRD) genes in patients with retinopathy of unknown origin (RUO).

Methods: Multicentric retrospective study of RUO cases diagnosed between January 2012 and February 2022. General and ophthalmologic history, complete ophthalmologic examination, antiretinal antibodies, and IRD gene panel results were analyzed in every patient.