A novel splice site variant in <i>DEGS1</i> leads to aberrant splicing and loss of DEGS1 enzyme activity, a VUS resolved

Holly C. Beale; Victor Tse; J.Y. Lee; Jon Akutagawa; Yusuph Mavura; Brandon Saint-John; Allison Cheney; Dennis Mulligan; Guillermo Chacaltana; Martin Gutierrez; Jessica Tenney; Joseph T.C. Shieh; Pierre‐Marie Martin; Tiffany Yip; Uğur Hodoğlugil; Alex J. Fay; Angela N. Brooks; Jessica Van Ziffle; Michael D. Stone; Neil Risch; Jeremy R. Sanford; Patrick Devine; Julie D. Saba; Olena M. Vaske; Anne Slavotinek

doi:10.1007/s00439-026-02830-9

A novel splice site variant in <i>DEGS1</i> leads to aberrant splicing and loss of DEGS1 enzyme activity, a VUS resolved

Holly C. Beale(University of California, Santa Cruz), Victor Tse(University of California, Santa Cruz), J.Y. Lee(University of California, San Francisco), Jon Akutagawa(University of California, San Francisco), Yusuph Mavura(University of California, San Francisco), Brandon Saint-John(Lawrence Berkeley National Laboratory), Allison Cheney(University of California, Santa Cruz), Dennis Mulligan(University of California, Santa Cruz), Guillermo Chacaltana(University of California, Santa Cruz), Martin Gutierrez(University of California, Santa Cruz), Jessica Tenney(University of California, San Francisco), Joseph T.C. Shieh(University of California, San Francisco), Pierre‐Marie Martin(University of California, San Francisco), Tiffany Yip(University of California, San Francisco), Uğur Hodoğlugil(University of California, San Francisco), Alex J. Fay(University of California, San Francisco), Angela N. Brooks(University of California, Santa Cruz), Jessica Van Ziffle(University of California, San Francisco), Michael D. Stone(University of California, Santa Cruz), Neil Risch(University of California, San Francisco), Jeremy R. Sanford(University of California, Santa Cruz), Patrick Devine(University of California, San Francisco), Julie D. Saba(University of California, San Francisco), Olena M. Vaske(University of California, Santa Cruz), Anne Slavotinek(University of California, San Francisco)

Human Genetics

April 11, 2025

10.1007/s00439-026-02830-9

Cited by 1Open Access

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Abstract

Purpose: variants have been reported in individuals with autosomal recessive hypomyelinating leukodystrophy 18 (HLD18; MIM# 618404). We sought to resolve a 5' +4/+5 splice site variant of uncertain significance found in three individuals with HLD features. Methods: We used next-generation DNA and transcriptome sequencing, cell-based splicing assays, and tandem mass spectrometry to detect and characterize the splice site variant. We then performed RNA structure probing and conventional antisense oligonucleotide screening to investigate molecular mechanisms for potential therapeutic intervention. Results: 5' splice site variant, c.825+4_825+5delAGinsTT (NM_003676.4) was identified in all three participants. Although the gene has been associated with autosomal recessive hypomyelinating leukodystrophy, the variant has not been previously reported in any available databases or literature. We show that the splice site variant: 1) was sufficient to induce exon two skipping in most detected transcripts; 2) resulted in structural changes to the 5' and 3' splice site regions using RNA structure probing; and 3) corresponds to plasma sphingolipid profiles consistent with loss of sphingolipid delta(4)-desaturase activity. Discussion: variant c.825+4_825+5delAGinsTT is pathogenic and suggested a mechanistic model to explain how exon two skipping is induced.

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