Non-Invasive Detection of a De Novo Frameshift Variant of STAG2 in a Female Fetus: Escape Genes Influence the Manifestation of X-Linked Diseases in Females
Academic Article
Publication Date:
2022
Short description:
Non-Invasive Detection of a De Novo Frameshift Variant of STAG2 in a Female Fetus: Escape Genes Influence the Manifestation of X-Linked Diseases in Females / Provenzano, Aldesia; La Barbera, Andrea; Lai, Francesco; Perra, Andrea; Farina, Antonio; Cariati, Ettore; Zuffardi, Orsetta; Giglio, Sabrina. - In: JOURNAL OF CLINICAL MEDICINE. - ISSN 2077-0383. - 11:14(2022). [10.3390/jcm11144182]
abstract:
Background: We report on a 20-week-old female fetus with a diaphragmatic hernia and other malformations, all of which appeared after the first-trimester ultrasound. Methods and Results: Whole trio exome sequencing (WES) on cell-free fetal DNA (cff-DNA) revealed a de novo frameshift variant of the X-linked STAG2 gene. Loss-of-function (LoF) STAG2 variants cause either holoprosencephaly (HPE) or Mullegama–Klein–Martinez syndrome (MKMS), are de novo, and only affect
females, indicating male lethality. In contrast, missense mutations associate with milder forms of MKMS and follow the classic X-linked recessive inheritance transmitted from healthy mothers to male offspring. STAG2 has been reported to escape X-inactivation, suggesting that disease onset in LoF females is dependent on inadequate dosing for at least some of the transcripts, as is the case with a part of the autosomal dominant diseases. Missense STAG2 variants produce a quantity
of transcripts, which, while resulting in a different protein, leads to disease only in hemizygous males. Similar inheritance patterns are described for other escapee genes. Conclusions: This study confirms the advantage of WES on cff-DNA and emphasizes the role of the type of the variant in X-linked disorders.
females, indicating male lethality. In contrast, missense mutations associate with milder forms of MKMS and follow the classic X-linked recessive inheritance transmitted from healthy mothers to male offspring. STAG2 has been reported to escape X-inactivation, suggesting that disease onset in LoF females is dependent on inadequate dosing for at least some of the transcripts, as is the case with a part of the autosomal dominant diseases. Missense STAG2 variants produce a quantity
of transcripts, which, while resulting in a different protein, leads to disease only in hemizygous males. Similar inheritance patterns are described for other escapee genes. Conclusions: This study confirms the advantage of WES on cff-DNA and emphasizes the role of the type of the variant in X-linked disorders.
Iris type:
1.1 Articolo in rivista
Keywords:
X-linked diseases; non-invasive whole exome sequencing; fetal cell-free DNA; escapee genes; X-inactivation; Mullegama–Klein–Martinez syndrome (MKMS); STAG2 gene
List of contributors:
Provenzano, Aldesia; La Barbera, Andrea; Lai, Francesco; Perra, Andrea; Farina, Antonio; Cariati, Ettore; Zuffardi, Orsetta; Giglio, Sabrina
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