Multiorgan failure with abnormal receptor metabolism in mice mimicking Samd9/9L syndromes
Akiko Nagamachi, … , Hirotaka Matsui, Toshiya Inaba
Akiko Nagamachi, … , Hirotaka Matsui, Toshiya Inaba
Published December 29, 2020
Citation Information: J Clin Invest. 2021;131(4):e140147. https://doi.org/10.1172/JCI140147.
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Research Article Cell biology Hematology

Multiorgan failure with abnormal receptor metabolism in mice mimicking Samd9/9L syndromes

Abstract

Autosomal dominant sterile α motif domain containing 9 (Samd9) and Samd9L (Samd9/9L) syndromes are a large subgroup of currently established inherited bone marrow failure syndromes that includes myelodysplasia, infection, growth restriction, adrenal hypoplasia, genital phenotypes, and enteropathy (MIRAGE), ataxia pancytopenia, and familial monosomy 7 syndromes. Samd9/9L genes are located in tandem on chromosome 7 and have been known to be the genes responsible for myeloid malignancies associated with monosomy 7. Additionally, as IFN-inducible genes, Samd9/9L are crucial for protection against viruses. Samd9/9L syndromes are caused by gain-of-function mutations and develop into infantile myelodysplastic syndromes associated with monosomy 7 (MDS/–7) at extraordinarily high frequencies. We generated mice expressing Samd9LD764N, which mimic MIRAGE syndrome, presenting with growth retardation, a short life, bone marrow failure, and multiorgan degeneration. In hematopoietic cells, Samd9LD764N downregulates the endocytosis of transferrin and c-Kit, resulting in a rare cause of anemia and a low bone marrow reconstitutive potential that ultimately causes MDS/–7. In contrast, in nonhematopoietic cells we tested, Samd9LD764N upregulated the endocytosis of EGFR by Ship2 phosphatase translocation to the cytomembrane and activated lysosomes, resulting in the reduced expression of surface receptors and signaling. Thus, Samd9/9L is a downstream regulator of IFN that controls receptor metabolism, with constitutive activation leading to multiorgan dysfunction.

Authors

Akiko Nagamachi, Akinori Kanai, Megumi Nakamura, Hiroshi Okuda, Akihiko Yokoyama, Satoru Shinriki, Hirotaka Matsui, Toshiya Inaba

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Figure 1

Characterization of mice expressing Samd9LD764N mutant.

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Characterization of mice expressing Samd9LD764N mutant. (A) Schematic of...
(A) Schematic of human Samd9/9L proteins. Mutations identified in patients with MIRAGE, AP, and other members of Samd9/9L syndromes are indicated. (B) Alignment of amino acid sequence of mammalian Samd9/9L surrounding the mutation site (red). Dots indicate amino acid residues identical to those of human Samd9. (C) Sequencing analysis of tail DNA from micem/+. (D) Photograph of siblings at 2 weeks of age. Genotypes are indicated above (left). Body weights of mice+/+, micem/+, and micem/m. Means are plotted, and error bars show SD. (E) Survival curves after postnatal day 28. Significance was calculated by log-rank test. (F) Peripheral blood counts at 25 weeks of age. Horizontal line indicates the mean, vertical the SD. Eight mice in each group. (G and H) Photographs of mouse testes with epididymis after formalin fixation (G) and kidneys immediately after dissection (H). Genotypes and ages are indicated in the figure. *P < 0.05; **P < 0.01, Tukey-Kramer test (D and F).