Mesenchymal Progenitors Aging Highlights a miR-196 Switch Targeting HOXB7 as Master Regulator of Proliferation and Osteogenesis

Candini Olivia; Spano Carlotta; Murgia Alba; Grisendi Giulia; Veronesi Elena; Piccinno Maria Serena; Ferracin Manuela; Negrini Massimo; Giacobbi Francesca; Bambi Franco; Horwitz Edwin Mark; Conte Pierfranco; Paolucci Paolo; Dominici Massimo

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Mesenchymal Progenitors Aging Highlights a miR-196 Switch Targeting HOXB7 as Master Regulator of Proliferation and Osteogenesis

机译：间充质祖母老化突出显示靶向HoxB7的MiR-196切换为增殖和骨质发生的主调节剂

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Human aging is associated with a decrease in tissue functions combined with a decline in stem cells frequency and activity followed by a loss of regenerative capacity. The molecular mechanisms behind this senescence remain largely obscure, precluding targeted approaches to counteract aging. Focusing on mesenchymal stromal/stem cells (MSC) as known adult progenitors, we identified a specific switch in miRNA expression during aging, revealing a miR-196a upregulation which was inversely correlated with MSC proliferation through HOXB7 targeting. A forced HOXB7 expression was associated with an improved cell growth, a reduction of senescence, and an improved osteogenesis linked to a dramatic increase of autocrine basic fibroblast growth factor secretion. These findings, along with the progressive decrease of HOXB7 levels observed during skeletal aging in mice, indicate HOXB7 as a master factor driving progenitors behavior lifetime, providing a better understanding of bone senescence and leading to an optimization of MSC performance.

机译：人衰老与组织功能的减少相关，组织功能与干细胞频率和活性的下降，然后丧失再生能力。这种衰老后面的分子机制仍然很大程度上是模糊的，排除有针对性的方法来抵消老化。专注于间充质基质/干细胞（MSC）作为已知的成人祖细胞，我们在老化期间鉴定了MiRNA表达中的特定开关，揭示了通过通过HoxB7靶向与MSC增殖相反相关的miR-196a上调。强制HoxB7表达与改善的细胞生长，降低衰老和改进的骨质发生相关，与自分泌碱性成纤维细胞生长因子分泌的显着增加有关。这些发现以及在小鼠骨骼床上观察到的HoxB7水平的逐渐降低，表明HoxB7作为驱动祖的祖先行为寿命的主因子，提供更好地了解骨骼衰老并导致MSC性能的优化。

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来源
《Stem Cells》 |2015年第3期|共12页
作者
Candini Olivia; Spano Carlotta; Murgia Alba; Grisendi Giulia; Veronesi Elena; Piccinno Maria Serena; Ferracin Manuela; Negrini Massimo; Giacobbi Francesca; Bambi Franco; Horwitz Edwin Mark; Conte Pierfranco; Paolucci Paolo; Dominici Massimo;
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作者单位

Univ Hosp Modena &

Reggio Emilia Dept Med &

Surg Sci Children &

Adults I-41124 Modena Italy;

Univ Hosp Modena &

Reggio Emilia Dept Med &

Surg Sci Children &

Adults I-41124 Modena Italy;

Univ Hosp Modena &

Reggio Emilia Dept Med &

Surg Sci Children &

Adults I-41124 Modena Italy;

Univ Hosp Modena &

Reggio Emilia Dept Med &

Surg Sci Children &

Adults I-41124 Modena Italy;

Univ Hosp Modena &

Reggio Emilia Dept Med &

Surg Sci Children &

Adults I-41124 Modena Italy;

Univ Hosp Modena &

Reggio Emilia Dept Med &

Surg Sci Children &

Adults I-41124 Modena Italy;

Univ Ferrara Dept Morphol Surg &

Expt Med Pathol Sect I-44100 Ferrara Italy;

Univ Ferrara Dept Morphol Surg &

Expt Med Pathol Sect I-44100 Ferrara Italy;

Univ Hosp Modena &

Reggio Emilia Dept Med &

Surg Sci Children &

Adults I-41124 Modena Italy;

Childrens Hosp A Meyer Florence Italy;

Nationwide Childrens Hosp Div Hematol Oncol BMT Columbus OH USA;

Univ Padua Ist Oncol Veneto IRCCS Dept Surg Oncol &

Gastroenterol Padua Italy;

Univ Hosp Modena &

Reggio Emilia Dept Med &

Surg Sci Children &

Adults I-41124 Modena Italy;

Univ Hosp Modena &

Reggio Emilia Dept Med &

Surg Sci Children &

Adults I-41124 Modena Italy;

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原文格式 PDF
正文语种 eng
中图分类生物医学工程;
关键词
Bone marrow stromal cells; Aging; Homeobox genes; Bone;

机译：骨髓基质细胞;老化;Homeobox基因;骨头;
入库时间 2022-08-20 05:47:49

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专利

1. Mesenchymal Progenitors Aging Highlights a miR-196 Switch Targeting HOXB7 as Master Regulator of Proliferation and Osteogenesis [J] . Candini Olivia, Spano Carlotta, Murgia Alba, Stem Cells . 2015,第3期

机译：间充质祖细胞衰老突出了针对HOXB7作为增殖和成骨的主要调节剂的miR-196开关。
2. Distal-less homeobox 5 is a master regulator of the osteogenesis of human mesenchymal stem cells [J] . HeoJune Seok, LeeSeung Gwan, KimHyun Ok International journal of molecular medicine . 2017,第5期

机译：远距同源盒5是人间充质干细胞成骨的主要调节剂
3. Distal-less homeobox 5 is a master regulator of the osteogenesis of human mesenchymal stem cells [J] . Heo June Seok, Lee Seung Gwan, Kim Hyun Ok International journal of molecular medicine . 2017,第5期

机译：远端Homeobox 5是人间充质干细胞的骨质发生器的主调节剂
4. Mobility of indium-labeled mesenchymal progenitor cells during augmentation of bone repair following distraction osteogenesis [C] . Kenneth M. Kozloff, Elizabeth P. Frankenburg, Luis A. Solchaga, Bioengineering Conference . 2001

机译：分散骨质发生后骨修复期间铟标记的间充质祖细胞的迁移率
5. Control of breast cancer cell migration, proliferation, and epithelial to mesenchymal transition by regulator of G protein signaling (RGS3) [D] . Sethakorn, Nan 2012

机译：通过调节G蛋白信号（RGS3）来控制乳腺癌细胞的迁移，增殖和上皮向间质转化
6. Distal-less homeobox 5 is a master regulator of the osteogenesis of human mesenchymal stem cells [O] . June Seok Heo, Seung Gwan Lee, Hyun Ok Kim -1

机译：远距同源盒5是人类间充质干细胞成骨的主要调节剂
7. Mesenchymal progenitors aging highlights a miR-196 switch targeting HOXB7 as master regulator of proliferation and osteogenesis. [O] . Candini, Olivia, Spano, Carlotta, Murgia, Alba, 2014

机译：间充质祖细胞衰老在miR-196转换中突出，其靶向HOXB7作为增殖和成骨的主要调节剂。

Mesenchymal Progenitors Aging Highlights a miR-196 Switch Targeting HOXB7 as Master Regulator of Proliferation and Osteogenesis

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