Article(id=1246459847923884504, tenantId=1146029695717560320, journalId=1246415837536497731, issueId=1246459843930903036, articleNumber=null, orderNo=null, doi=10.12307/2025.553, pmid=null, cstr=null, oa=null, hot=null, price=null, onlineType=0, articleFormat=0, articleType=null, articleTypeStr=null, receivedDate=1723046400000, receivedDateStr=2024-08-08, revisedDate=1730304000000, revisedDateStr=2024-10-31, acceptedDate=1726848000000, acceptedDateStr=2024-09-21, onlineDate=1775108785848, onlineDateStr=2026-04-02, pubDate=1766851200000, pubDateStr=2025-12-28, doiRegisterDate=null, doiRegisterDateStr=null, onlineIssueDate=1775108785848, onlineIssueDateStr=2026-04-02, onlineJustAcceptDate=null, onlineJustAcceptDateStr=null, onlineFirstDate=null, onlineFirstDateStr=null, sourceXml=null, magXml=null, createTime=1775108785848, creator=13701087609, updateTime=1775108785848, updator=13701087609, issue=Issue{id=1246459843930903036, tenantId=1146029695717560320, journalId=1246415837536497731, year='2025', volume='29', issue='36', pageStart='7701', pageEnd='7920', issueExtLink='null', onlineDate='null', pubDate='null', beforeIssueId=null, nextIssueId=null, price=null, status=1, issueComplete=1, articleOrder=1, issueType=1, specialIssue=null, createTime=1775108784853, creator=13701087609, updateTime=1775108852483, updator=13701087609, preIssue=null, nextIssue=null, ext={EN=IssueExt(id=1246460127511991018, tenantId=1146029695717560320, journalId=1246415837536497731, issueId=1246459843930903036, language=EN, specialIssueTitle=, coverIllustrator=null, specialIssueEditor=, specialIssueAbout=), CN=IssueExt(id=1246460127511991019, tenantId=1146029695717560320, journalId=1246415837536497731, issueId=1246459843930903036, language=CN, specialIssueTitle=, coverIllustrator=null, specialIssueEditor=, specialIssueAbout=)}, issueFiles=null}, startPage=7863, endPage=7871, ext={EN=ArticleExt(id=1246459848158765535, articleId=1246459847923884504, tenantId=1146029695717560320, journalId=1246415837536497731, language=EN, title=Hematopoietic stem cell mobilization: advantages and disadvantages of different plans and improvements in predictive models and technologies, columnId=1246459847353459153, journalTitle=Chinese Journal of Tissue Engineering Research, columnName=Review, runingTitle=null, highlight=null, articleAbstract=
BACKGROUND: Hematopoietic stem cell transplantation is a widely used treatment method to cure malignant and nonmalignant diseases originated from hematological cells. Mobilization and collection of sufficient hematopoietic stem cells are the preconditions to ensure rapid and sustained hematopoietic reconstitution after hematopoietic stem cell transplantation. However, the most commonly used granulocyte colony-stimulating factor with or without chemotherapy still has a mobilization failure rate of 10% to 40%.
OBJECTIVE: To review the present status of hematopoietic stem cell mobilization in recent years, analyze the advantages and disadvantages of different mobilization plans, and be looking forward for new mobilization methods.
METHODS: Using “hematopoietic stem cell, hematopoietic stem cell transplantation, hematopoietic stem cell mobilization, cytokines, thrombopoietin, CXCR4 antagonists, integrin antagonist, chemotherapy, mobilization efficiency” as Chinese and English keywords, articles published from 1990 to 2024 were searched on CNKI, PubMed, and WanFang databases. A total of more than 300 articles were retrieved, and 68 articles were finally included.
RESULTS AND CONCLUSION: More and more studies have found that granulocyte colony-stimulating factor combined with other agents including plerixafor, interleukins, thrombopoietin, and integrin antagonist could improve hematopoietic stem cell mobilization. Combined use can reduce the dose of granulocyte colony-stimulating factor and related adverse reactions. Some new drugs, such as soluble recombinant FLT3-ligand (CDX-301) and dual α9β1/α4β1 integrin inhibitor BOP, can be combined with granulocyte colony-stimulating factor to promote hematopoietic stem cell mobilization. In addition, some potential mobilization targets, such as prostaglandin E2 receptor and sphingosine 1-phosphate, are still in the research stage. In addition to inherent patient characteristics and treatment options, incorporating biomarkers into the factors affecting mobilization and developing new predictive models will help to effectively predict the failure of hematopoietic stem cell mobilization and improve stem cell mobilization technology.
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Xu Fang, MD, Chief physician, Mianyang Central Hospital, Mianyang Hospital Affiliated to the School of Medicine of University of Electronic Science and Technology of China, Mianyang 621000, Sichuan Province, China
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背景: 造血干细胞移植是一种广泛应用于血液系统恶性和非恶性疾病的重要治疗手段,动员和收集足够的造血干细胞是保证患者移植后快速、持续造血功能重建的前提,但最常用的粒细胞集落刺激因子联合或不联合化疗的经典方案仍有10%-40%的动员失败率。
目的: 综述近年来造血干细胞动员现状,分析不同方案的优缺点,展望未来动员新方案。
方法: 以“造血干细胞,造血干细胞移植,造血干细胞动员,细胞因子,血小板生成素,CXCR4拮抗剂,整合素拮抗剂,化疗,动员效能”为中文关键词,以“hematopoietic stem cell,hematopoietic stem cell transplantation,hematopoietic stem cell mobilization,cytokines,thrombopoietin,CXCR4 antagonists,integrin antagonist,chemotherapy,mobilization efficiency”为英文关键词,在CNKI、PubMed、万方数据库进行检索,文献语种限制为中文、英文,检索年限为1990-2024年,共检索到300多篇文献,最终纳入68篇文献进行分析。
结果与结论: 越来越多的研究发现粒细胞集落刺激因子联合普乐沙福、白细胞介素、血小板生成素及整合素拮抗剂等能够更加有效地动员造血干细胞,联合使用可以减少粒细胞集落刺激因子的使用剂量,减少相关不良反应。一些新药如可溶性重组flt3-配体(简称CDX-301)、双重α9β1/α4β1整合素抑制剂BOP等可与粒细胞集落刺激因子联合,促进造血干细胞动员。此外还发现一些潜在的动员靶点如前列腺素E2受体及1-磷酸鞘氨醇等,尚在研究阶段。除固有的患者特征、治疗特征外,开发纳入生物标志物的预测模型,有助于有效预测造血干细胞动员失败,提升干细胞动员技术。
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许芳,博士,主任医师,电子科技大学医学院附属绵阳医院,绵阳市中心医院,四川省绵阳市 621000
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作者贡献:
第一作者负责检索并仔细阅读文献,第一作者负责成文,通讯作者负责审校。
Han Mengjun, Master candidate, School of Medicine, University of Electronic Science and Technology of China, Chengdu 611731, Sichuan Province, China
韩孟君,女,2001年生,四川省巴中市人,汉族,电子科技大学医学院在读硕士,主要从事血液病学研究。
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韩孟君,女,2001年生,四川省巴中市人,汉族,电子科技大学医学院在读硕士,主要从事血液病学研究。
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| 动员药物 | 动员的主要机制 | 研究现状 |
|---|
| 粒细胞集落刺激因子 | 基质细胞衍生因子1/CXC趋化因子受体4轴、非常晚期抗原4/血管黏附分子1轴、交感神经等 | 长效粒细胞集落刺激因子的作用与短效粒细胞集落刺激因子相当,减少注射次数 |
| 白细胞介素8 | 间接干扰骨髓微环境中干祖细胞对基质分子的黏附 | 诱导快速动员,与其他动员剂联合显著增加动员,安全性高,但证据尚不足 |
| 干细胞因子 | 促进造血干细胞的增殖及分化 | 可与粒细胞集落刺激因子协同增强外周血单个核细胞的动员,但由于过敏反应未在国内批准上市 |
| 血小板生成素 | 血小板生成素及其受体通过受体相关的酪氨酸激酶JAK2激活下游信号通路发挥作用 | 证据较少,尚处于临床试验阶段,动员效能存在争议 |
| CDX-301 | 生长因子3配体受体结合刺激造血干细胞增殖、分化 | 诱导缓慢的动员,与CXC趋化因子受体4拮抗剂联合可以明显增强动员效能,可减少移植物抗宿主病的风险,但近年研究较少 |
| BOP | 非常晚期抗原4/血管细胞黏附分子1轴 | 可以快速并优先动员造血干/祖细胞,与粒细胞集落刺激因子和CXC趋化因子受体4拮抗剂具有协同作用,仍在试验阶段 |
| 普乐沙福 | 基质细胞衍生因子1/CXC趋化因子受体4轴 | 与粒细胞集落刺激因子联合可显著增加动员效能,耐受性良好 |
| 莫替福肽 | 基质细胞衍生因子1/CXC趋化因子受体4轴 | 与粒细胞集落刺激因子联合动员比普乐沙福更加迅速,产量更多,但未在国内上市 |
| 美洛昔康 | 减少黏附因子CXC趋化因子受体4的表达 | 多发性骨髓瘤患者临床试验中,与粒细胞集落刺激因子协同增加动员 |
| SEW2871 | S1P1激动剂,促进造血干细胞向外周血迁移 | 尚在临床试验阶段 |
| 肝素 | 与硫酸肝素蛋白聚糖竞争 | 临床证据较少 |
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可用于造血干细胞动员的药物
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| 动员药物 | 动员的主要机制 | 研究现状 |
|---|
| 粒细胞集落刺激因子 | 基质细胞衍生因子1/CXC趋化因子受体4轴、非常晚期抗原4/血管黏附分子1轴、交感神经等 | 长效粒细胞集落刺激因子的作用与短效粒细胞集落刺激因子相当,减少注射次数 |
| 白细胞介素8 | 间接干扰骨髓微环境中干祖细胞对基质分子的黏附 | 诱导快速动员,与其他动员剂联合显著增加动员,安全性高,但证据尚不足 |
| 干细胞因子 | 促进造血干细胞的增殖及分化 | 可与粒细胞集落刺激因子协同增强外周血单个核细胞的动员,但由于过敏反应未在国内批准上市 |
| 血小板生成素 | 血小板生成素及其受体通过受体相关的酪氨酸激酶JAK2激活下游信号通路发挥作用 | 证据较少,尚处于临床试验阶段,动员效能存在争议 |
| CDX-301 | 生长因子3配体受体结合刺激造血干细胞增殖、分化 | 诱导缓慢的动员,与CXC趋化因子受体4拮抗剂联合可以明显增强动员效能,可减少移植物抗宿主病的风险,但近年研究较少 |
| BOP | 非常晚期抗原4/血管细胞黏附分子1轴 | 可以快速并优先动员造血干/祖细胞,与粒细胞集落刺激因子和CXC趋化因子受体4拮抗剂具有协同作用,仍在试验阶段 |
| 普乐沙福 | 基质细胞衍生因子1/CXC趋化因子受体4轴 | 与粒细胞集落刺激因子联合可显著增加动员效能,耐受性良好 |
| 莫替福肽 | 基质细胞衍生因子1/CXC趋化因子受体4轴 | 与粒细胞集落刺激因子联合动员比普乐沙福更加迅速,产量更多,但未在国内上市 |
| 美洛昔康 | 减少黏附因子CXC趋化因子受体4的表达 | 多发性骨髓瘤患者临床试验中,与粒细胞集落刺激因子协同增加动员 |
| SEW2871 | S1P1激动剂,促进造血干细胞向外周血迁移 | 尚在临床试验阶段 |
| 肝素 | 与硫酸肝素蛋白聚糖竞争 | 临床证据较少 |
), ArticleFig(id=1246459860800398217, tenantId=1146029695717560320, journalId=1246415837536497731, articleId=1246459847923884504, language=EN, label=null, caption=null, figureFileSmall=null, figureFileBig=null, tableContent=
| CXC趋化因子受体4拮抗剂 | 研究方法 | 发表时间 | 引用 |
|---|
| 普乐沙福 | 前瞻性2期试验(MOBIL1),系统地研究了在常规给予粒细胞集落刺激因子后动员不良供者使用单剂普乐沙福的安全性和有效性。 | 2020 | [41] |
| 3期随机、双盲研究,纳入101例非霍奇金淋巴瘤患者,在动员的1-8 d分别予以粒细胞集落刺激因子10 μg/(kg·d),在动员的第4天随机1∶1分配,分别接受普乐沙福0.24 mg/(kg·d)或皮下注射安慰剂,评估普乐沙福联合粒细胞集落刺激因子用于造血干细胞动员的疗效和安全性 | 2017
2023 | [42]
[43] |
| 莫替福肽 | 招募122例接受自体干细胞移植的多发性骨髓瘤患者,以2∶1比例随机分配,分别予以莫替福肽+粒细胞集落刺激因子或莫替福肽+安慰剂进行造血干细胞的动员,从而比较两组动员的安全性及有效性 | 2023 | [44] |
| 对25例异体造血干细胞捐赠者分别使用1.0或1.25 mg/kg莫替福肽进行造血干细胞动员,以评估莫替福肽动员的安全性及有效性 | 2023 | [45] |
), ArticleFig(id=1246459860947198871, tenantId=1146029695717560320, journalId=1246415837536497731, articleId=1246459847923884504, language=CN, label=表2, caption=
CXC趋化因子受体4拮抗剂应用于造血干细胞动员的现状
, figureFileSmall=null, figureFileBig=null, tableContent=
| CXC趋化因子受体4拮抗剂 | 研究方法 | 发表时间 | 引用 |
|---|
| 普乐沙福 | 前瞻性2期试验(MOBIL1),系统地研究了在常规给予粒细胞集落刺激因子后动员不良供者使用单剂普乐沙福的安全性和有效性。 | 2020 | [41] |
| 3期随机、双盲研究,纳入101例非霍奇金淋巴瘤患者,在动员的1-8 d分别予以粒细胞集落刺激因子10 μg/(kg·d),在动员的第4天随机1∶1分配,分别接受普乐沙福0.24 mg/(kg·d)或皮下注射安慰剂,评估普乐沙福联合粒细胞集落刺激因子用于造血干细胞动员的疗效和安全性 | 2017
2023 | [42]
[43] |
| 莫替福肽 | 招募122例接受自体干细胞移植的多发性骨髓瘤患者,以2∶1比例随机分配,分别予以莫替福肽+粒细胞集落刺激因子或莫替福肽+安慰剂进行造血干细胞的动员,从而比较两组动员的安全性及有效性 | 2023 | [44] |
| 对25例异体造血干细胞捐赠者分别使用1.0或1.25 mg/kg莫替福肽进行造血干细胞动员,以评估莫替福肽动员的安全性及有效性 | 2023 | [45] |
), ArticleFig(id=1246459861052056482, tenantId=1146029695717560320, journalId=1246415837536497731, articleId=1246459847923884504, language=EN, label=null, caption=null, figureFileSmall=null, figureFileBig=null, tableContent=
| 生物标志 | 研究现状 | 发表时间 | 引用 |
|---|
| Flt3-配体 | 粒细胞集落刺激因子给药前血浆中高水平的Flt3-配体可用于预测动员效能 | 2022 | [64] |
| CD44基因多态性 | CD44基因多态性对动员疗效有影响 | 2014 | [65] |
| Gata2变异 | 保守的小鼠Gata2增强子(+9.5)在胚胎发生过程中促进造血干细胞的发生 | 2023 | [66] |
| 粒细胞、单核细胞 | 粒细胞缺乏、单核细胞功能受损可影响动员效能 | 2015,2019 | [67-68] |
| 集落刺激因子受体、基质细胞衍生因子1水平 | 给药前集落刺激因子受体与动员效能呈负相关,给药后血清粒细胞集落刺激因子水平及基质细胞衍生因子1水平与动员效能呈正相关 | 2019 | [68] |
), ArticleFig(id=1246459861165302697, tenantId=1146029695717560320, journalId=1246415837536497731, articleId=1246459847923884504, language=CN, label=表3, caption=
可能预测造血干细胞动员效能的生物标志
, figureFileSmall=null, figureFileBig=null, tableContent=
| 生物标志 | 研究现状 | 发表时间 | 引用 |
|---|
| Flt3-配体 | 粒细胞集落刺激因子给药前血浆中高水平的Flt3-配体可用于预测动员效能 | 2022 | [64] |
| CD44基因多态性 | CD44基因多态性对动员疗效有影响 | 2014 | [65] |
| Gata2变异 | 保守的小鼠Gata2增强子(+9.5)在胚胎发生过程中促进造血干细胞的发生 | 2023 | [66] |
| 粒细胞、单核细胞 | 粒细胞缺乏、单核细胞功能受损可影响动员效能 | 2015,2019 | [67-68] |
| 集落刺激因子受体、基质细胞衍生因子1水平 | 给药前集落刺激因子受体与动员效能呈负相关,给药后血清粒细胞集落刺激因子水平及基质细胞衍生因子1水平与动员效能呈正相关 | 2019 | [68] |
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