nature今日号外：加拿大科学家不用ips细胞直接制作血液细胞成功（原文12楼）

临床干细胞

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今天nature发表的新闻请特约专家评论了将于12月发表于nature的加拿大科学家的成果，一项不用ips细胞，直接转化为血液细胞的技术，这个研究团队在制作ips细胞时，无意中发现只使用ＯＣＴ４因子导入皮肤细胞中，可以获得血液祖细胞，然后再经过培养，可以生成红细胞，白细胞等血液细胞，以下是这篇文章的nature的新闻评论和即将于12月发表于nature的文章全文：
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Published online 7 November 2010 | Nature | doi:10.1038/news.2010.588
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News8 u1 X9 K6 S' b- A& M6 I
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Cellular 'alchemy' transforms skin into blood
- l- G* Q6 W* Y+ U! kDirect conversion of cell types could offer safer, simpler treatments than stem cells.- E: m/ n1 L2 {/ L. j% f
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Ewen Callaway 1 }* K$ }+ k0 ]4 {( |

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The right cocktail of chemicals converts human skin cells directly into blood.2 G% L2 b2 n- C& {
www.ingrampublishing.comHuman skin cells can be transformed into blood without first being sent through a primordial, stem-cell-like state, according to a ground-breaking study.8 M$ P8 }( ]# M4 O, R  k

- I& o. M. I( r$ p2 m$ W% N+ ?The breakthrough, published online today in Nature1, follows work earlier this year showing that fibroblast cells from mouse skin, treated with the right cocktail of chemicals, can be transformed into neurons2 and heart muscle3. However, it is the first study to accomplish this feat with human cells, and the first to create progenitor cells — in this case for blood.
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- @6 @4 f- K8 z7 q1 c! S. _5 O"It takes us a step along the line to believing that you can produce anything from almost anything," says Ian Wilmut, an embryologist and director of the MRC Centre for Regenerative Medicine in Edinburgh, UK. Such 'direct conversions' also offer a potentially safer, simpler tool for creating patient-specific cell therapies than is promised by adult cells reprogrammed to become stem cells (known as induced pluripotent stem cells, or iPS cells).& Y, m: V6 P  X/ B! S3 V

( E, b* [+ f4 g" P* i8 IMickie Bhatia, a stem-cell researcher at McMaster University in Hamilton, Canada, and his colleagues chose to make blood progenitors from skin cells because red blood cells created from stem cells do not make the adult form of haemoglobin. "Those cells, because they think they're embryonic, make embryonic and fetal blood," he says. ( c6 G# n! q6 `1 r0 }: o9 W6 y: L' a

$ Q: [' y8 l# R9 |Creating a bloodline
9 i1 I- D6 H: @! y' \7 h% F' ETo make blood progenitor cells, Bhatia and his team collected skin fibroblasts from several volunteers. They infected the cells with a virus that inserted the gene OCT4, and then grew them in a soup of immune-stimulating proteins called cytokines.
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, N7 l5 y. t" H: c8 I9 ZOCT4 is one of a handful of Yamanaka factors used to transform fibroblasts into iPS cells, but Bhatia's team found no evidence that the blood progenitor cells that they had made went through an embryonic state. The cells' gene-expression patterns never resembled those of embryonic stem cells, and the blood progenitor cells didn't cause mice to develop teratomas — tumours that are characteristic of pluripotent cells.
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“Everybody has their favourite cell type. There is a lot of this kind of alchemy going on.”+ l- J6 E9 M. A  F7 Y$ X
George Daley
) p! ]& M  V: F1 q; m+ l. D5 nChildren's Hospital Boston5 N* P, c8 V) c8 D+ i6 U" L
The progenitors did, however, produce all three classes of blood cells — white blood cells, red blood cells and platelets — all of which seemed to function as they should, according to a battery of experiments. The red blood cells made adult haemoglobin, not the fetal form.
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$ K+ _+ p2 M) b# [$ PThe ultimate test would be transplanting the cells into humans, says Bhatia, but that isn't on the cards — at least not yet. "The clinical side is going to be a lot of work," he says. "At least from our estimation, this is the most encouraging result we've seen for using blood cells for cell-replacement therapy." 1 V3 ?  N6 ~4 `! n3 J$ V& |
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Sanguine about the possibilities
: ~: y0 f% B6 H; W$ f2 a* Q% H! OThe potential for therapy is very much on the minds of Bhatia and other scientists who are converting cells directly. Because the progenitor cells bypass pluripotency, there is little risk of them forming tumours when implanted into patients, says Wilmut, who is working on creating other progenitor cells in his own lab.
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Deepak Srivastava, a developmental biologist and director of the Gladstone Institute of Cardiovascular Disease in San Francisco, California, led the team responsible for making heart muscle from mouse fibroblasts3. He says that directly converted cells could also offer simpler treatments than iPS cells: the fibroblasts that surround the heart could be transformed into new heart muscle using a stent that delivers drugs to reprogram the cells.. C5 W! a$ d  P  T# i
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% E+ V8 G; {) s& O# d( DConverted cells aren't without their drawbacks, though. Unlike iPS and embryonic stem cells, they cannot easily multiply in the lab, so producing the large quantities needed for applications such as screening drugs could prove tough, says Wilmut.7 j2 d4 Y5 J4 X1 `

0 P# {8 I: c- X: [3 S/ IDespite lab experiments establishing that the converted blood cells are indistinguishable from adult blood cells, it is still too early to tell whether they will be as good as the real thing once they are inside patients, says George Daley, a stem-cell biologist at Children's Hospital Boston in Massachusetts.: Y( p( u* R; i! _( `; W

' |% L' e1 ]; O/ z: }7 dIn particular, epigenetic modifications — changes that modify gene expression without altering the DNA sequence — could differ between blood cells produced naturally and those created by direct conversion. "The journey from a zygote to a specialized blood cell is very long. The journey from a fibroblast to a blood cell in a petri dish may take a very different route," says Daley.
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Even with these caveats, direct conversion is gaining in popularity. "Everybody has their favourite cell type," says Daley. "There is a lot of this kind of alchemy going on."
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1.Szabo, E. et al. Nature doi:10.1038/nature09591 (2010).
/ _  Y" T4 D! B" O2.Vierbuchen, T. et al. Nature 463, 1035-1041 (2010).
+ \! o; m! \0 a: M1 L" f3.Ieda, M. et al. Cell 142, 375-386 (2010).
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相关文章
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; O5 s$ ?4 j8 |% s0 p. vhttp://www.stemcell8.cn/thread-29688-1-1.html

细胞海洋

据《自然》杂志今晨报道，加拿大研究人 员发明一种新“造血术”，可将人体皮肤“ 变为”血液。! n, b4 C. o% f

4 ^* j$ X$ S: _1 a, j　　加拿大一家干细胞与癌症研究中心成员米 克·巴蒂亚介绍，先前技术手段已经实现利 用人体胚胎干细胞造血。他和同事发明的新 方法可直接利用皮肤细胞造血，无需把皮肤 细胞转化为胚胎干细胞。
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  D, `1 ]( K: W) V' ?　　按照他的说法，两种方法相比，“皮肤造 血法”更为简单、安全、高效。2 n( Q  G  p& a% {: Z- P! x

* T3 s9 I' Y- x; p　　巴蒂亚说， 他们可利用一块12平方厘米大小的成人皮肤 实现造血。“皮肤造血法”临床试验最早 2012年开展。
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　　小组成员在此之前用小白鼠进行过相关实 验。研究发现，小白鼠皮肤上的纤维组织细 胞在经过一系列处理后可以转换成神经细胞 和心肌细胞。这项研究结果可以用来“制造 ”人类血液的原始细胞。8 }5 d: F. _1 V; g6 Y  |: P

% J! I0 V. F" N. z' u% W0 b　　为了制造血液原始细胞，巴蒂亚和他的研 究小组从几名志愿者身上收集了一些皮肤。 他们首先用植入“OCT4”基因的病毒去感染 这些皮肤，然后再把它们放入一种叫做“细 胞激素”的培养液中。
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　　“OCT4”是少有的能 够使纤维细胞转化成胚胎肝细胞的一种基因 。但在“OCT4”基因和培养液的作用下，皮 肤的纤维细胞并没有形成胚胎肝细胞。. e: B  n5 {8 L

3 L% l- Q* q( Q, {　　通过分别对血液中的白细胞、红细胞 和血小板进行实验之后，研究人员终于发现 ，能够“制造”血液的并不是胚胎肝细胞， 而是红细胞。红细胞能够制造成熟的血红蛋 白。
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0 K/ h8 M4 n0 w4 u: C/ C　　研究员伊恩·威尔姆特通过这项研究认为，人类或许可以实现“用任何东西创造任何 东西”。
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) q0 ]9 {! ]+ o0 V2 G" z2 L　　对于这项技术的应用，研究人员认为，这项新技术医用前景非常广阔。今后病人 罹患败血症或需手术输血，将不必为寻找匹 配血源犯愁，利用自己皮肤就能获得所需血液。; _7 U( ~1 H& s5 Y2 A

- V" g) G3 r3 H0 q　　另外，新技术有利于肿瘤病人接受化疗， 因为他们今后可以接受更长时间治疗，减少 旨在恢复身体机能的间隔期。" S8 q! ]9 b7 \( S4 ~

. o8 w, L8 Z* w. y' k　　部分据新华社

细胞海洋

新华网北京１１月８日电 加拿大研究人员日前开发出一种新的造血方法，可将人体皮肤直接转变为血液。这一医学突破可能为癌症治疗和病人手术过程中的输血带来新的血源。
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    加拿大麦克马斯特大学的研究人员在英国《自然》杂志网络版上发表报告说，此前的皮肤造血法需要经过诱导多功能干细胞这一中间环节，而他们开发的新方法是直接转化，不仅过程简单，而且所得到的血液质量更高。* s( o* z% U' z  G, i+ n0 M& F6 I8 k
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    据介绍，研究人员利用病毒将名为ＯＣＴ４的基因植入人类皮肤细胞中，然后在含有多种细胞因子的特殊环境中进行培养。这样，皮肤细胞就可直接变为血液细胞的前体细胞，这些前体细胞又可以生成白细胞、红细胞、血小板三种主要血液细胞。* ]9 n. h# ?6 H; L/ e  p' e7 }0 R

- c. Q0 F% U8 _& y( \, I- _    研究人员在两年时间里，用成人皮肤和新生儿包皮反复进行上述实验，证实任何年龄的人的皮肤都可以转化为血液，而且血液功能正常。# ?) f6 l  [  |& M+ h8 O1 {. z$ p7 t

4 D& c  ~, w/ e2 T! G. p    过去也曾有研究将皮肤细胞转化为血液细胞，但过程是先将皮肤干细胞变成诱导多功能干细胞，再将诱导多功能干细胞变成血液细胞，多了诱导多功能干细胞这个中间环节。& r3 z% h# j$ j0 {/ x1 }$ y6 {( Q' J

/ l+ I3 [; q9 F3 K; b3 `    研究人员说，间接造血法得到的血液细胞中的血红素功能并不完善，仍停留在“胚胎”而不是“成体”阶段，而直接转化得到的血液细胞含有的是成体血红素。
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9 t- R/ `( D5 {0 I; v" h    此外，通过诱导多功能干细胞得到的血液细胞常常有导致癌症肿瘤的风险，而将直接转化得到的血液细胞注入实验鼠体内，没有发现肿瘤的迹象。

细胞海洋

研究人员认为，这项新技术医用前景广阔。今后一些病人可能将不必为寻找匹配血源犯愁，因为利用自己皮肤就能获得所需血液。5 p) Q7 s0 F8 `) B3 n% t) H
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    负责这项研究的米克·巴蒂亚说，首先从这项成果中受益的将是白血病患者。他们需要经常移植含有造血干细胞的骨髓，但因经常接受放疗，其干细胞可能会像癌细胞一样发生变异，而来自捐献者的骨髓则容易引起排异反应。皮肤细胞则不发生任何基因变异，因此可以用患者自身的皮肤细胞制造血液，再移植到患者本人体内。
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    这种治疗方法还可用于接受大剂量化疗的癌症患者。化疗不仅杀死癌细胞，同时还破坏患者血液系统。因此经常需要暂停化疗，以便让患者免疫功能恢复。这也给了肿瘤恢复和再生的时间，而且再生的癌细胞通常对化疗有抗体。如果患者在化疗的同时输入用自己皮肤制造的替代血液，不仅可以继续进行大剂量化疗，而且可以增加永久杀死肿瘤的机会。
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+ e% e5 b* \+ B, N    不过研究人员也表示，虽然现在实验室中的各项实验显示，这些人造血液细胞具有正常功能，但要真正用于临床还有许多工作要做。（黄堃、马丹）

xiao6tao

哇。好消息

marrowstem

iPS细胞将何去何从？Yamanaka又将如何评价此项工作。

marrowstem

研究员伊恩·威尔姆特通过这项研究认为，人类或许可以实现“用任何东西创造任何东西”。
9 B  e& T  X$ [5 f$ BIt's too great to believed.

临床干细胞

研究员伊恩·威尔姆特通过这项研究认为，人类或许可以实现“用任何东西创造任何东西”。/ P( m7 v# ?# J5 @
It's too great t ...% x" z0 P) `' B( X1 `
marrowstem 发表于 2010-11-9 15:28

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- e( ]0 `4 d% Y. y' D# @# C- m. I    你这句英语有问题吧

marrowstem

回复 8# 临床干细胞
% E( r6 J  Q) e6 j+ y2 H5 F  \有问题就让他有问题吧。
! S) [1 E: b: \人类或许可以实现“用任何东西创造任何东西”。这句话本身就是有问题的，Ian Wilmut真是老了，如果这句话真是他说的，不能想象他曾是克隆羊之父，然后在iPS细胞出来后又抛弃自己为之成名的体细胞克隆领域——改行搞iPS细胞了，现在面对这项转分化工作，又出来说了这么一句话。

daviehe

顶！世界变化的太快~~