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Tracking clusterin expression in hematopoietic stem cells reveals their heterogeneous composition across the life span

凝集素 生物 造血 干细胞 衰老 细胞生物学 祖细胞 免疫学 人口 遗传学 医学 细胞凋亡 环境卫生
作者
Shuhei Koide,Motohiko Oshima,Takahiro Kamiya,Zhiqian Zheng,Zhaoyi Liu,Ola Rizq,Akira Nishiyama,Koichi Murakami,Yuta Yamada,Yaeko Nakajima-Takagi,Bahityar Rahmutulla,Atsushi Kaneda,Kazuaki Yokoyama,N Yusa,Seiya Imoto,Fumihito Miura,Takashi Ito,Tomohiko Tamura,Claus Nerlov,Masayuki Yamashita
出处
期刊:Blood [Elsevier BV]
卷期号:146 (1): 62-75 被引量:6
标识
DOI:10.1182/blood.2024025776
摘要

ABSTRACT: Hematopoietic stem cells (HSCs) exhibit significant age-related phenotypic and functional alterations. Although single-cell technologies have elucidated age-related compositional changes, prospective identification of aging-associated HSC subsets has remained challenging. In this study, using clusterin (Clu)-green fluorescent protein (GFP) reporter mice, we demonstrated that Clu expression faithfully marks age-associated myeloid/platelet-biased HSCs throughout life. Clu-GFP expression clearly segregates a novel age-associated HSC subset that overlaps with but is distinct from those previously identified using antibodies against aging maker proteins or reporter systems of aged HSC signature genes. Clu-positive (Clu+) HSCs emerge as a minor population in the fetus and progressively expand with age. Clu+ HSCs display not only an increased propensity for myeloid/platelet-biased differentiation but also a unique behavior in the bone marrow, favoring self-renewal over differentiation into downstream progenitors. In contrast, Clu-negative (Clu-) HSCs exhibit lineage-balanced differentiation, which predominates in the HSC pool during development but becomes underrepresented as aging progresses. Both subsets maintain long-term self-renewal capabilities even in aged mice but contribute differently to hematopoiesis. The predominant expansion of Clu+ HSCs largely drives the age-related changes observed in the HSC pool. Conversely, Clu- HSCs preserve youthful functionality and molecular characteristics into old age. Consequently, progressive changes in the balance between Clu+ and Clu- HSC subsets account for HSC aging. Our findings establish Clu as a novel marker for identifying aging-associated changes in HSCs and provide a new approach that enables lifelong tracking of the HSC aging process.
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