Heterozygous lamin B1 and lamin B2 variants cause primary microcephaly and define a novel laminopathy

David Parry ,Deirdre Donnelly,R Jackson,J.M Hackett,Lisa Robertson,F Boardman-Pretty,T Rogers,A Sieghart,K Savage,K Sawant,J Pullinger,T Rahim,M Tanguy,A Devereau,P Furió-Tarí,D Perez-Gil,K Witkowska,Caoimhe Mckenna,Andrew P Jackson,A Stuckey,L Lahnstein,Victoria Harrison,Carol-Anne Martin,E.R.A Thomas,P Riesgo-Ferreiro,Stephanie Greville‐Heygate ,Anna C Need ,C R Boustred ,Shirley Henderson ,Augusto Rendon ,Katherine Lachlan,Julien Boissière ,Dalia Kasperavičiūtė ,Candice Craig ,Elizabeth T Walsh ,Joanne Mason ,Eric O Williams ,Afshan Siddiq ,Louise Jones ,Sarah Leigh ,Kristina Ibáñez ,Dina Halai ,Joseph A Marsh,Hallam Stevens ,F Maleady‐Crowe ,S R Thompson ,Rosy Sultana ,Moira Blyth,Tom Fowler ,Angela Hamblin ,Marta Bleda ,Fabrice Lopez ,Louise C Daugherty ,William Spooner ,Dimitris Polychronopoulos ,Melis Kayikci ,Prabhu Arumugam ,Carolyn Tregidgo ,Tim Hubbard ,Helen Brittain ,Kim Lawson ,Michael Mueller ,J C Ambrose ,Scott Watters ,Rebecca E Foulger ,Helen Cox,Mohnish Suri,Athanasios Kousathanas ,Samuel C Smith ,Mark J Caulfield ,M J Welland ,Gillian Rea,Philip Greene,Ellen M Mcdonagh ,Adam Giess ,Damian Smedley ,Emma L Baple ,Andrea Orioli ,Christopher A Odhams ,Katherine R Smith ,Nirupa Murugaesu ,Magdalena Zarowiecki ,Anna De Burca ,Arianna Tucci ,Greg Elgar ,Alan J Quigley,S M Wood ,Loukas Moutsianas ,John E Holman ,Alona Sosinsky ,Christine Patch ,I U S Leong ,Lynn Greenhalgh,Mariana Buongermino Pereira ,Mina Ryten ,G C Chan ,Richard Scott

doi:10.1038/s41436-020-00980-3

Abstract

PurposeLamins are the major component of nuclear lamina, maintaining structural integrity of the nucleus. Lamin A/C variants are well established to cause a spectrum of disorders ranging from myopathies to progeria, termed laminopathies. Phenotypes resulting from variants in LMNB1 and LMNB2 have been much less clearly defined. MethodsWe investigated exome and genome sequencing from the Deciphering Developmental Disorders Study and the 100,000 Genomes Project to identify novel microcephaly genes. ResultsStarting from a cohort of patients with extreme microcephaly, 13 individuals with heterozygous variants in the two human B-type lamins were identified. Recurrent variants were established to be de novo in nine cases and shown to affect highly conserved residues within the lamin ɑ-helical rod domain, likely disrupting interactions required for higher-order assembly of lamin filaments. ConclusionWe identify dominant pathogenic variants in LMNB1 and LMNB2 as a genetic cause of primary microcephaly, implicating a major structural component of the nuclear envelope in its etiology and defining a new form of laminopathy. The distinct nature of this lamin B–associated phenotype highlights the strikingly different developmental requirements for lamin paralogs and suggests a novel mechanism for primary microcephaly warranting future investigation.

Highlights

The nuclear lamina is a protein structure that lines the inner nuclear membrane and provides structural support to the nucleus.[1]
Lamins are the major component of the nuclear lamina, forming a meshwork of filaments; they interact with numerous proteins and act as a signaling hub, linking the nuclear lamina to the cytoskeleton and chromatin
Lamins A and C (Atypes) are splice isoforms encoded by the same gene, while the B-type lamins are the products of different genes.[1]

Summary

Introduction

The nuclear lamina is a protein structure that lines the inner nuclear membrane and provides structural support to the nucleus.[1] Lamins are the major component of the nuclear lamina, forming a meshwork of filaments; they interact with numerous proteins and act as a signaling hub, linking the nuclear lamina to the cytoskeleton and chromatin. As well as maintaining structural integrity of the nucleus, they influence chromatin organization, DNA transcription, repair, and replication.[1]. Vertebrate cells express two classes of lamins, A and B, grouped based on sequence homology. Over the past two decades many disorders have been linked to LMNA variants, collectively termed laminopathies. Four major disease categories have been described with overlapping features: striated muscle diseases, lipodystrophy syndromes, peripheral neuropathies, and accelerated aging (segmental progeroid) disorders.[2]

Methods

Results

Discussion

Conclusion