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发表于 2016-6-23 15:37 |只看该作者 |倒序浏览 |打印
First CRISPR Human Clinical Trial Gets a Green Light from the U.S.

The gene-editing technology’s cancer treatment safety test could start later this year  





Human T cells (red) will soon be modified using the CRISPR technique in a clinical trial to attack cancer cells (white). Credit: NIH Image Gallery/Flickr, CC BY.20                        CRISPR, the genome-editing technology that has taken biomedical science by storm, is finally nearing human trials.
On June 21, an advisory committee at the US National Institutes of Health (NIH) approved a proposal to use CRISPR–Cas9 to help augment cancer therapies that rely on enlisting a patient’s T cells, a type of immune cell.
“Cell therapies [for cancer] are so promising but the majority of people who get these therapies have a disease that relapses,” says study leader Edward Stadtmauer, a physician at the University of Pennsylvania in Philadelphia. Gene editing could improve such treatments and eliminate some of their vulnerabilities to cancer and the body’s immune system, he says.
This first trial is small and designed to test whether CRISPR is safe for use in people, rather than whether it cures cancer or not. It will be funded by a US$250-million immunotherapy foundation formed in April by former Facebook president Sean Parker. The trial itself does not yet have a budget. The University of Pennsylvania will manufacture the edited cells, and will recruit and treat patients alongside centres in California and Texas.
The researchers will remove T cells from 18 patients with melanoma, sarcoma or myeloma, and perform three CRISPR edits on them. One edit will insert a gene for a protein engineered to detect cancer cells and instruct the T cells to target them, and a second edit removes a natural T-cell protein that could interfere with this process. The third is defensive: it will remove the gene for a protein that identifies the T cells as immune cells and prevent the cancer cells from disabling them. The researchers will then infuse the edited cells back into the patient.
On the move“Last year’s excitement over CRISPR was in anticipation of this,” says Dean Anthony Lee, an immunologist at MD Anderson Cancer Center in Houston, Texas, and a member of the NIH’s Recombinant DNA Research Advisory Committee (RAC), which reviewed the proposal. CRISPR, he says, makes genome engineering easy enough that such trials can move forward quickly.
The RAC reviews all proposals for human trials involving modified DNA that are conducted in the United States. Stadtmauer’s team will now have to convince US regulators and review boards at their own institutions to allow the trial. Immunologist Carl June at the University of Pennsylvania, who is a science adviser on the project, says that it could begin by the end of the year.
Other trials may not be far behind. Editas Biotechnologies in Cambridge, Massachusetts, for instance, has said that it wants to use CRISPR in a clinical trial for a rare form of blindness as soon as 2017. However, RAC members say that they have not yet been approached about reviewing the trial.
Other techniquesCRISPR has courted most attention because of its ease of use, however the T-cell trial will not be the first test of the efficacy of using gene editing to fight diseases. In 2014, June led a trial using a different gene-editing system called zinc-finger nuclease.
His group took blood from 12 people with HIV and removed the gene that encodes a protein on T cells that is targeted by the virus. They hoped that this would prevent infection of the cells. The results were encouraging, and the technique is now being used in clinical trials for several other applications.
And last week, researchers at Great Ormond Street Hospital for Children in London began a safety study with 10 children using a similar technique called TALENS. Instead of using a patient’s own cells, the system uses T cells from a donor that have been edited to remove genes that would cause the patient’s body to reject them. The gene editing then directs the T cells to attack the cancer and protects the cells from other immunotherapy drugs.
Although CRISPR is easier to use than the other techniques, and better at editing multiple genes at once, June says that the main challenge will be overcoming CRISPR's propensity for ‘off-target’ edits. These are instances in which the system cuts or mutates unintended parts of the genome. And despite precautions, the immune system could still attack the edited cells.
Once bitten, twice shyDuring the RAC meeting, one of the committee’s greatest concerns was a potential conflict of interest. Among other financial involvements, June has ties to the pharmaceutical company Novartis, holds patents on T-cell technologies, and could stand to benefit from the success of this trial. June declined to give details on the exact nature of his conflicts of interest, but says that his university is taking steps to manage it, such as preventing him from being involved in selecting patients.
Several RAC reviewers suggested that the University of Pennsylvania not be allowed to recruit patients at all and to leave it to other institutions: this language did not make it into their final approval.
However, the RAC members say they are being extra careful with this study. “Penn has a very extensive conflict and has a history,” says Laurie Zoloth, a bioethicist at Northwestern University in Evanston, Illinois. Looming over the discussion is the name Jesse Gelsinger, who died at age 18 while participating in an early gene-therapy trial conducted by researchers at the University of Pennsylvania in 1999.
A subsequent investigation found numerous problems with the study, including unreported animal data on the therapy’s ill effects and the fact that the investigators had a financial stake in the study’s outcome.
The incident is generally considered to have set gene therapy back by decades. “Any first use in humans we have to be extraordinarily careful,” Zoloth says. So a lot is riding on this trial.
But Mildred Cho, a bioethicist at Stanford University in California and an RAC member, says that safety work in animals for a new therapy will take researchers only so far. “Often we have to take the leap of faith.”
This article is reproduced with permission and was first published on June 22, 2016.

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发表于 2016-6-23 15:38 |只看该作者
首先CRISPR人体临床试验从美国获取了绿灯

基因编辑技术的癌症治疗安全测试可能在今年晚些时候启动

    萨拉·里尔登,在2016年6月22日自然杂志

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人T细胞(红色)即将使用CRISPR技术在临床试验中来攻击癌细胞(白色)进行修改。来源:NIH图片廊/ Flickr后,CC BY.20

CRISPR,已经席卷生物医学基因组编辑技术,终于接近人体试验。

6月21日,在美国卫生研究院国家(NIH)的顾问委员会批准使用CRISPR-Cas9以帮助增加依赖于争取患者的T细胞,一类免疫细胞的癌症治疗的建议。

“细胞疗法[癌症]是如此有前景,但大多数人谁得到这些疗法有复发的疾病,”研究负责人爱德华Stadtmauer酒店,在费城宾夕法尼亚大学的医生说。基因编辑可以改善这种治疗,消除他们的一些漏洞,癌症和机体的免疫系统,他说。

这第一次试验是小,目的是检验CRISPR是否是安全的人们使用,而不是它是否治愈癌症与否。它将由Facebook前总裁肖恩·帕克在形成四月份US $ 250亿免疫基金会资助。审判本身还没有预算。宾夕法尼亚大学将制造编辑细胞,并且将招募和治疗病人一起在加利福尼亚州和得克萨斯州的中心。

研究人员将18例黑色素瘤,肉瘤或骨髓瘤去除T细胞,并对其执行三个CRISPR编辑。一个编辑将插入一个基因工程化以检测癌细胞并指示T细胞,对其进行定位的蛋白质,和一个第二编辑删除,可以用此工艺干扰天然T细胞的蛋白质。第三是防御性的:它会删除该基因标识的T细胞作为免疫细胞的蛋白质,阻止癌细胞禁用它们。然后,研究人员将注入编辑的细胞回患者。
在移动

“去年的激动之余CRISPR是预见到这种情况,”院长安东尼·李的免疫学家在MD安德森癌症中心在休斯敦,得克萨斯州和美国国立卫生研究院的重组DNA研究咨询委员会(RAC),审查了提案的成员说。 CRISPR,他说,让基因工程很容易的,这样的试验能快速向前发展。

RAC的审查涉及修饰的DNA人体试验是在美国进行的所有建议。 Stadtmauer酒店的团队现在将必须说服美国监管机构和评审委员会在自己的机构,让审判。免疫学家卡尔·6月在美国宾夕法尼亚大学,谁是该项目的科学顾问说,这可能会在今年年底开始。

其他试验可能不会远远落后。 Editas生物技术在剑桥,马萨诸塞州,比如曾表示,它希望尽快2017年。然而,RAC成员说,他们尚未接洽审查试用CRISPR在临床试验中失明的一种罕见的。
其他技术

CRISPR拉拢了最多的关注,因为它的易用性,但T细胞试验不会利用基因编辑抵抗疾病的功效的第一次测试。 2014年,导致月使用一种称为锌指核酸酶不同的基因编辑系统审判。

他的组采取血液从12​​人与HIV和除去编码由该病毒靶向T细胞上的蛋白质的基因。他们希望这将阻止细胞的感染。结果是令人鼓舞的,目前正在临床试验用于其它多种应用的技术。

上周,研究人员在大奥蒙德街儿童医院在伦敦开始了儿童安全研究使用一种叫做TALENS类似的技术,10个孩子。代替使用患者自身的细胞的,系统将使用的T细胞从已编辑以除去基因会导致患者的身体,以拒绝他们的供体。该基因编辑然后指示T细胞攻击癌细胞和其他药物的免疫保护细胞。

虽然CRISPR更容易比其他技术的使用,更好地在一次编辑多个基因,六月说,主要挑战将是克服CRISPR的倾向“脱靶”编辑。这些是其中系统切口或变异不期望的基因组中的部分的实例。尽管防范措施,免疫系统仍然可以攻击编辑细胞。
一朝被蛇咬十年怕井绳

在RAC会议上,委员会最关心的问题之一是潜在利益冲突。在其他资金的参与,六月有联系的制药公司诺华公司,持有T细胞的技术专利,并可以站在该试验的成功中受益。六月拒绝透露他的利益冲突的确切性质的细节,但是他说,他的大学正在采取措施来管理它,如防止他被卷入选择病人。

一些评论家RAC建议,宾夕法尼亚大学不会被允许在所有招术,并把它留给其他机构:这种语言并没有使之成为自己的最终批准。

然而,RAC成员说,他们正在格外小心研究。 “佩恩有一个非常广泛的冲突,有历史,”劳里Zoloth,在伊利诺伊州埃文斯顿西北大学的生物伦理学说。笼罩在讨论这个名字杰西·基辛格,谁在18岁去世参与的研究人员在美国宾夕法尼亚大学在1999年进行的一项早期基因疗法试验的同时。

随后的调查中发现许多问题与研究,包括对治疗的不良影响未报告的动物实验数据和事实,办案人员曾在该研究的结果有经济利益。

这一事件被普遍认为几十年来已设置基因治疗回来。 “在人类的任何一次使用,我们必须要格外小心,”Zoloth说。所以,很多是骑在这项试验。

但是米尔德里德町,在加利福尼亚州斯坦福大学生物伦理学和RAC成员说,在动物中的安全工作,为一种新的疗法将采取研究者仅此而已。 “通常我们必须采取信仰的飞跃。”

本文转载使用许可,并首次发表于2016年6月22日。
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发表于 2016-6-23 15:47 |只看该作者
First Human Test of CRISPR Proposed

Doctors at the University of Pennsylvania seek approval for gene editing to fight cancer.

    by Antonio Regalado June 16, 2016

A federal safety board next week will consider the first human use of the gene-editing technology CRISPR, according to the National Institutes of Health.

The proposed treatment is an immune therapy in which a patient’s own blood cells will be removed and genetically altered using the technology, a type of molecular scissors able to precisely cut DNA.

The cancer treatment, in development by the University of Pennsylvania, is designed to target myeloma, melanoma, and sarcomas, according to the NIH.

CRISPR technology was invented less than four years ago but has rushed toward clinical application. A Cambridge company, Editas Medicine, previously said it intends to begin a trial in 2017 using CRISPR to treat a rare eye disease.

The new proposal to use CRISPR to edit human immune cells could happen sooner than that. The University of Pennsylvania didn’t immediately respond to a request for comment, and the timing of the study couldn’t be determined.

The same university helped pioneer a form of cancer therapy in which a person’s own blood cells are removed, genetically modified to attack cancer, and re-infused into the bloodstream. The type of cells being altered, called T cells, have the job of attacking and destroying bacteria as well as unhealthy cells.

The group reviewing the proposal, the Recombinant DNA Advisory Committee, was established to weigh the risks of studies involving gene therapy and also investigate reports of deaths and side effects. Modified T cells can be dangerous because they bypass the usual checks and balances that keep the immune system from attacking a person's own tissues.

“While the application of new gene editing technologies in this field has great potential to improve human health, it is not without concerns,” Carrie Wolinetz, associate director of science policy at the NIH, said in a blog post.

Blood cells edited with other methods have previously been tried in humans to treat conditions including HIV and, in a previous instance, leukemia. But CRISPR technology is considered far easier to use. The Penn proposal offers an example of a new wave of designer cell therapies involving more extensive genetic engineering than was previously possible.

“Researchers in the field of gene transfer are excited by the potential of utilizing CRISPR/Cas9 to repair or delete mutations that are involved in numerous human diseases in less time and at a lower cost than earlier gene editing systems,” says Wolinetz.

According to an abstract published by the NIH, Penn intends to undertake a small study in humans of T cells that are engineered to seek out myeloma and other cancers. What’s new is that the cells will also be edited to remove two genes.

One gene to be edited out, PD-1, is a key off switch of the body’s immune response. Without it, the T cells may overcome certain tumors’ ability to avoid detection. However, removing such controls could also present new risks to patients.  

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CRISPR, National Institutes of Health, NIH, immunotherapy

Antonio Regalado Senior Editor, Biomedicine

I am the senior editor for biomedicine for MIT Technology Review. I look for stories about how technology is changing medicine and biomedical research. Before joining MIT Technology Review in July 2011, I lived in São Paulo, Brazil,… More

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发表于 2016-6-23 15:48 |只看该作者
CRISPR的第一人测试建议

在宾夕法尼亚大学的医生寻求批准基因编辑,以对抗癌症。

    由Antonio Regalado 2016年6月16日

联邦安全委员会下周将考虑人类第一次利用基因编辑技术CRISPR,根据美国国立卫生研究院。

所提出的治疗是免疫疗法,其中,患者自身的血细胞将使用该技术被移除,遗传改变,能够一类型的分子剪刀的精确切割的DNA。

癌症治疗,由宾夕法尼亚大学开发,被设计为靶向骨髓瘤,黑素瘤和肉瘤,根据美国国立卫生研究院。

CRISPR技术是不到四年前发明却已经迫不及待地走向临床应用。剑桥公司,Editas医药,此前曾表示,它打算利用CRISPR治疗一种罕见的眼病,开始审判在2017年。

新建议使用CRISPR编辑人体免疫细胞会发生比更早。宾夕法尼亚大学没有立即回应记者的置评请求,而且研究的时间无法确定。

同一大学帮助开拓癌症治疗,其中一个人自身的血细胞被除去,遗传修饰以攻击癌细胞,并重新注入到血液中的一种形式。类型的细胞被​​改变,被称为T细胞,具有攻击并破坏细菌以及不健康细胞的作业。

该小组审查的建议,重组DNA咨询委员会的成立是为了权衡涉及基因治疗研究的风险,也调查死亡和副作用的报告。因为他们绕过通常的制衡保持免疫系统攻击一个人的自身组织修饰的T细胞可能是危险的。

“虽然新的基因编辑技术在这一领域的应用具有很大的潜力,以改善人类健康,但也不是没有顾虑,”嘉莉Wolinetz,在NIH科学政策的副主任,在博客中说。

与其他方法编辑血细胞先前已试图在人中以治疗病症,包括HIV和,在先前的实例中,白血病。但是CRISPR技术被认为是更容易使用。宾夕法尼亚建议提供涉及更广泛的基因工程比以前设计师细胞疗法新一波的例子。

“在基因转移的领域的研究人员通过利用CRISPR / Cas9修复或删除中所涉及众多人类疾病在更短的时间,并在比早期基因编辑系统以较低的费用突变的潜在激动”Wolinetz说。

据美国国立卫生研究院发表的抽象,佩恩打算在该设计,以寻求骨髓瘤和其他癌症的T细胞的人进行一项小规模研究。有什么新的是,细胞也将被修改,以去除两个基因。

要被编辑出一种基因,PD-1,是关闭的机体的免疫应答的交换机的关键。没有它,T细胞可以克服某些肿瘤“,以避免被发现的能力。然而,去除这种管制也可能带来新的风险的患者。

标记

CRISPR,美国国立卫生研究院,美国国立卫生研究院,免疫治疗

安东尼Regalado高级编辑,生物医药

我对生物医学的资深编辑为科技创业。我找技术如何改变医学和生物医学研究的故事。 2011年7月加入科技创业之前,我住在巴西圣保罗,...更多

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发表于 2016-6-28 09:36 |只看该作者
好消息,基因剪刀手。

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发表于 2016-6-28 11:43 |只看该作者
卫霍123 发表于 2016-6-28 09:36
好消息,基因剪刀手。

这是一个非常聪明的身体以外的编辑.

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发表于 2016-6-28 17:23 |只看该作者
Blood cells edited with other methods have previously been tried in humans to treat conditions including HIV and, in a previous instance, leukemia. But CRISPR technology is considered far easier to use. The Penn proposal offers an example of a new wave of designer cell therapies involving more extensive genetic engineering than was previously possible.
以前曾经试图用(其他的)基因编辑技术对付HIV和白血病,但Crispr技术操作更简单。-就算技术简单,但有研究进展吗?
有相关基因编辑治疗HIV和白血病之类相关研究吗?

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发表于 2016-6-28 17:49 |只看该作者
回复 HILARYTRUMP 的帖子

Gene editing has 2 major problems:
1. delivery to target cells
2. Off-targets mistake
基因编辑有2个主要问题:
1.运送到靶细胞
2.脱靶错误

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发表于 2016-6-28 19:13 |只看该作者
感谢楼主分享。。
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