The paraspeckle is a disease-relevant biomolecular condensate assembled from long non-coding RNA (lncRNA) NEAT1_2 ribonucleoprotein particles. Paraspeckle biogenesis is suppressed in normal tissues, yet it can be rapidly upregulated under stress. Here we demonstrate that a neurodegeneration-linked RNA-binding protein TDP-43 inhibits NEAT1_2 ribonucleoprotein particle condensation into the paraspeckle, in a concentration-dependent manner, which requires its intact polymerization and RNA binding. This effect is counterbalanced by core paraspeckle proteins such as FUS. Below disruptive concentrations, TDP-43 can be recruited into paraspeckles, forming non-liquid clusters. Under stress, TDP-43 sequestration into de novo nuclear condensates alleviates paraspeckle suppression and increases their dynamism. NEAT1_2 middle-part and 3′-end UG repeats mediate paraspeckle regulation by TDP-43 cotranscriptionally and post assembly, respectively. The deletion of the 3′-end UG repeat increases paraspeckle stability and cytoprotection in stressed human neurons. Consistently, longer 3′-end UG repeats are linked to shorter survival in the neurodegenerative disease amyotrophic lateral sclerosis. Thus, TDP-43 is a critical regulator of paraspeckle condensates linked to cytoprotection.
Paraspeckle condensation is controlled via TDP-43 polymerization and linked to neuroprotection / R.E. Hodgson, W.-. Huang, R. Lang, V. Kumar, H. An, E.G.P. Stender, Z.P. Chalakova, M.D. Driver, A. Sanchez Avila, B.C.S. Ellis, E. Day, J.A. Rayment, K. Baeg, A. Strange, T. Moll, G.S.A. Wright, J.J.F.A. Van Vugt, J. Cooper-Knock, J.J.F.A. Van Vugt, C.L. Dalgard, J.D. Glass, J.E. Landers, K.E. Morrison, P.J. Shaw, C. Shaw, A. Al-Chalabi, N.A. Basak, M. Weber, P. Andersen, M. Povedano, J.S. Mora Pardina, T. Salas, M. De Carvalho, L.H. Van Den Berg, J.H. Veldink, V. Silani, N. Ticozzi, V. Drory, S. Yehuda, Y. Lerner, M. Gotkine, R. Mclaughin, O. Hardiman, P. Vourc'H, P. Couratier, P. Corcia, P. Van Damme, S.P. Allen, N. Locker, I. Pitout, S. Fletcher, P.R. Onck, O. Duss, J. Cooper-Knock, T.A. Shelkovnikova. - In: NATURE CELL BIOLOGY. - ISSN 1465-7392. - 28:4(2026 Apr), pp. 754-770. [10.1038/s41556-026-01895-y]
Paraspeckle condensation is controlled via TDP-43 polymerization and linked to neuroprotection
V. Silani;N. Ticozzi;
2026
Abstract
The paraspeckle is a disease-relevant biomolecular condensate assembled from long non-coding RNA (lncRNA) NEAT1_2 ribonucleoprotein particles. Paraspeckle biogenesis is suppressed in normal tissues, yet it can be rapidly upregulated under stress. Here we demonstrate that a neurodegeneration-linked RNA-binding protein TDP-43 inhibits NEAT1_2 ribonucleoprotein particle condensation into the paraspeckle, in a concentration-dependent manner, which requires its intact polymerization and RNA binding. This effect is counterbalanced by core paraspeckle proteins such as FUS. Below disruptive concentrations, TDP-43 can be recruited into paraspeckles, forming non-liquid clusters. Under stress, TDP-43 sequestration into de novo nuclear condensates alleviates paraspeckle suppression and increases their dynamism. NEAT1_2 middle-part and 3′-end UG repeats mediate paraspeckle regulation by TDP-43 cotranscriptionally and post assembly, respectively. The deletion of the 3′-end UG repeat increases paraspeckle stability and cytoprotection in stressed human neurons. Consistently, longer 3′-end UG repeats are linked to shorter survival in the neurodegenerative disease amyotrophic lateral sclerosis. Thus, TDP-43 is a critical regulator of paraspeckle condensates linked to cytoprotection.
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