From the sideline: Tissue‐specific nucleoporin function in health and disease, an update

Nuclear pore complexes (NPCs), large protein assemblies embedded into the nuclear envelope (NE), are crucial for bidirectional transport between the nucleus and cytoplasm, a process often disrupted in human diseases. Besides their presence within the NE, NPCs are also found in stacked cytoplasmic endoplasmic reticulum (ER) membranes called annulate lamellae (AL). Despite being discovered in the mid-20th century, the function and biogenesis mechanisms of AL have remained largely mysterious. While AL were thought to be restricted to germ, embryonic and malignant cells, we find that AL also exist in the cytoplasm of somatic cells under normal physiological conditions and that they can expand upon specific stimuli. We show that AL merge with the NE, supplying the nucleus with new pores which maintains nuclear pore function and nuclear growth during early interphase. NPC protein RanBP2 (Nup358) and ER-associated Climp63 (CKAP4) trigger AL assembly and their NE-integration. The N-terminal phenylalanine-glycine (FG) repeats of RanBP2 drive the oligomerization of Y-complexes (the NPC outer ring units), and AL-NPCs formation and Climp63 ensures the localization of AL-NPCs to ER sheets and their fusion with the nucleus. These findings uncover a fundamental mechanism of AL biogenesis and highlight the critical role of cytosolic NPCs in the nuclear function and mammalian cellular homeostasis.

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Interdependence between Nuclear Pore Gatekeepers and Genome Caretakers: Cues from Genome Instability Syndromes

Larizza,

Colombo

2024

IJMS

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This review starts off with the first germline homozygous variants of the Nucleoporin 98 gene (NUP98) in siblings whose clinical presentation recalls Rothmund–Thomson (RTS) and Werner (WS) syndromes. The progeroid phenotype caused by a gene associated with haematological malignancies and neurodegenerative disorders primed the search for interplay between caretakers involved in genome instability syndromes and Nuclear Pore Complex (NPC) components. In the context of basic information on NPC architecture and functions, we discuss the studies on the interdependence of caretakers and gatekeepers in WS and Hereditary Fibrosing Poikiloderma (POIKTMP), both entering in differential diagnosis with RTS. In WS, the WRN/WRNIP complex interacts with nucleoporins of the Y-complex and NDC1 altering NPC architecture. In POIKTMP, the mutated FAM111B, recruited by the Y-complex’s SEC13 and NUP96, interacts with several Nups safeguarding NPC structure. The linkage of both defective caretakers to the NPC highlights the attempt to activate a repair hub at the nuclear periphery to restore the DNA damage. The two separate WS and POIKTMP syndromes are drawn close by the interaction of their damage sensors with the NPC and by the shared hallmark of short fragile telomeres disclosing a major role of both caretakers in telomere maintenance.

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From the sideline: Tissue‐specific nucleoporin function in health and disease, an update

Cited by 3 publications

References 167 publications

Structure and function of the nuclear envelope and nuclear pores

Structure and function of the nuclear envelope and nuclear pores

Annulate Lamellae biogenesis is essential for nuclear pore function

Interdependence between Nuclear Pore Gatekeepers and Genome Caretakers: Cues from Genome Instability Syndromes

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