The microRNA processor DROSHA is a candidate gene for a severe progressive neurological disorder

Abstract DROSHA encodes a ribonuclease that is a subunit of the Microprocessor complex and is involved in the first step of microRNA (miRNA) biogenesis. To date, DROSHA has not yet been associated with a Mendelian disease. Here, we describe two individuals with profound intellectual disability, epil...

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Published in:	Human molecular genetics Vol. 31; no. 17; pp. 2934 - 2950
Main Authors:	Barish, Scott, Senturk, Mumine, Schoch, Kelly, Minogue, Amanda L, Lopergolo, Diego, Fallerini, Chiara, Harland, Jake, Seemann, Jacob H, Stong, Nicholas, Kranz, Peter G, Kansagra, Sujay, Mikati, Mohamad A, Jasien, Joan, El-Dairi, Mays, Galluzzi, Paolo, Ariani, Francesca, Renieri, Alessandra, Mari, Francesca, Wangler, Michael F, Arur, Swathi, Jiang, Yong-Hui, Yamamoto, Shinya, Shashi, Vandana, Bellen, Hugo J
Format:	Journal Article
Language:	English
Published:	England Oxford University Press 25-08-2022
Subjects:	Epilepsy Humans Intellectual Disability - genetics Microcephaly - genetics MicroRNAs - genetics MicroRNAs - metabolism Nervous System Malformations Original Ribonuclease III - genetics Ribonuclease III - metabolism
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Summary:	Abstract DROSHA encodes a ribonuclease that is a subunit of the Microprocessor complex and is involved in the first step of microRNA (miRNA) biogenesis. To date, DROSHA has not yet been associated with a Mendelian disease. Here, we describe two individuals with profound intellectual disability, epilepsy, white matter atrophy, microcephaly and dysmorphic features, who carry damaging de novo heterozygous variants in DROSHA. DROSHA is constrained for missense variants and moderately intolerant to loss-of-function (o/e = 0.24). The loss of the fruit fly ortholog drosha causes developmental arrest and death in third instar larvae, a severe reduction in brain size and loss of imaginal discs in the larva. Loss of drosha in eye clones causes small and rough eyes in adult flies. One of the identified DROSHA variants (p.Asp1219Gly) behaves as a strong loss-of-function allele in flies, while another variant (p.Arg1342Trp) is less damaging in our assays. In worms, a knock-in that mimics the p.Asp1219Gly variant at a worm equivalent residue causes loss of miRNA expression and heterochronicity, a phenotype characteristic of the loss of miRNA. Together, our data show that the DROSHA variants found in the individuals presented here are damaging based on functional studies in model organisms and likely underlie the severe phenotype involving the nervous system.
Bibliography:	ObjectType-Article-1 SourceType-Scholarly Journals-1 ObjectType-Feature-2 content type line 23 Scott Barish, Mumine Senturk, Kelly Schoch, Vandana Shashi and Hugo J. Bellen contributed equally to this work. Present address: Huffington Center on Aging, Baylor College of Medicine, Houston, TX 77030, USA.
ISSN:	0964-6906 1460-2083 1460-2083
DOI:	10.1093/hmg/ddac085