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发表于 2007-7-30 12:44
以下是引用奋斗与突破在2007-7-29 1:35:00的发言:
你先说出来这个靶向治疗的靶点是什么基因好么?

你想问谁?

哪个靶向治疗?

靶向治疗是基因治疗吗?

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敢为人先,务实进取,开放兼容,敬业奉献

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发表于 2007-8-9 06:13
怎么都是“首次发现”,“首次提出”, “首次发明”,“首次....”,中国的处女情节真浓厚呢。

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发表于 2007-10-7 07:16
[May 28, 2006]  
www.tmcnet.com/usubmit/-could-vi ... 6/05/28/1661415.htm
Could ViRexxs Linked Recognition Research Lead to a Cancer Vaccine?
By James Finch

While preparing a lecture in biochemistry and virology for his graduate students at the University of Alberta in the early 1980s, Dr. Lorne Tyrrell ran across a study just published in the medical journal, Cell. The research by William Mason and Jesse Summers, entitled “Replication of Hepatitis B,” discussed their study of the hepatitis B virus in infected duck liver.

A SCIENTIST’S 20-YEAR UNFINISHED JOURNEY TO TREAT HBV MAY OPEN THE DOOR TO A NEW CLASS OF FLEXIBLE VACCINES

After studying their duck model theory, Tyrrell speculated if the hepatitis B virus (HBV) might be susceptible to antiviral agents, and consulted with a colleague, who specialized in nucleoside chemistry. Both medical professors became excited about the possibility of inhibiting the HBV virus with nucleoside analogues. Thus began the infectious disease specialist’s first leg of a journey, which led to the use of lamivudine as a therapy for chronic HBV infections.

More than 350 million people across the world, especially in Asia, now had new hope, some for their lifelong infections contracted vertically at birth from their mothers. In 2003, the Center for Disease Control estimated 73,000 Americans were infected with HBV, and about 5,000 die each year from sickness caused by HBV. It is reportedly 100 times more contagious than the AIDS virus. Many in North America, who had been infected with the virus from sexual transmission or intravenous drug use, were offered a potentially life-saving therapy.

Licensed in 1998, lamivudine is now used in 120 countries as a standard therapy for chronic HBV carriers. The compound is also used in combination with other drugs, such as protease inhibitors, for HIV therapy. Development rights were licensed to Glaxo Wellcome in 1990, which is now sold under the brand name Epivir®. For his pioneering efforts in developing the antiviral agent, Dr. Tyrrell was awarded the gold medal by the Canadian Liver Foundation and the Canadian Association for the Study of Liver in 2000. In 2005, he won the prestigious EnCana Principal Award for his development of the first effective oral medication for Hepatitis B.


HIS UNANSWERED QUESTIONS LAUNCHED A NEW HBV INVESTIGATION

Despite the awards and recognition, questions remained for Dr. Tyrrell about the shortcomings of lamivudine. He was troubled that some viruses would develop resistance to the compound. “I was disappointed the sustained viral response was not complete,” Tyrrell told us. In April 2003, the Journal of Antimicrobial Chemotherapy published a study in Japan showing, “long-term (lamivudine) therapy is associated with increased emergence of lamivudine-resistant strains of HBV.” Researchers concluded in this study, “The therapeutic challenge to effectively treat chronic HBV infection continues.”

Having screened lamivudine for use in Hepatitis B at Glaxo’s research lab at the University of Alberta, Dr. Tyrrell was able to observe the immune response of various HBV patients. “What really got me interested in doing more work in this area was that we noticed patients, who have an immune response to the virus and take lamivudine, will have a better sustained response rate,” Tyrrell explained. “A patient with elevated liver transaminases taking lamivudine had a higher probability of a sustained viral response,” Tyrrell said with excitement in his voice. “In a patient with normal liver enzymes, who gets lamivudine, the virus will go down, but as soon as you stop the therapy, the virus comes right back up.” He told us the sustained viral response is only about two to three percent. Only about 30 percent remain free of the virus, about one year after patients have stopped taking lamivudine.

“How do you break tolerance?” Tyrrell asked himself, hoping to develop a way to stimulate an immune response. All of the patients, he had observed, seemed to be tolerant of the hepatitis B virus. He pondered the dilemma, “Was there some way to break tolerance to hepatitis B by stimulating the immune response?” Tyrrell studied what others were attempting and wasn’t satisfied with the approaches others were taking to stimulate immune response. His ViRexx Medical research team brainstormed about different ways to target the antigen into the dendritic cells.

“That’s where we came in with the Chimigen™ technology,” Tyrrell said. “The dendritic cells have receptors on their surface that will bind the Fc portion of an antibody.” He pointed out a key feature of the Chimigen™ platform, “We used the Fc portion of a murine (mouse) antibody to hook onto our hepatitis B antigens. This would direct the viral antigens into dendritic cells in vivo.” Because the dendritic cells are the sentries of the immune system, they guard what comes in. Recognizing a ‘foreign situation’ in the murine antibody, it treats the whole molecule including the virus antigen as foreign.

LINK RECOGNITION MAY HOLD THE KEY

Dr. Rajan George, ViRexx Medical’s vice president of research and development, told us, “The dendritic cells chop up this protein into small pieces called peptides, also known as epitopes. The dendritic cells have a system where they put the T-cell epitope on another protein, MHC Class I, and bring it to the surface of the dendritic cell. They are presented as a complex on the surface of the dendritic cell to attract the T-cells.” When the T-cells arrive to inspect the foreign entity, the cytotoxic T-cells are activated. Then, they begin attacking and killing the virus-infected cells.

Research at Tokyo’s Cancer Institute Hospital, published in 1987 in Nippon Sanka Fujinka Gakkai Zasshi, suggested a feasibility of linked recognition of a virus antigen as a helper in tumor immunity with a target antigen. In the case of ViRexx Medical, Tyrrell’s team has created a new molecule, called “chimigen.” The term is shorthand for a chimeric antigen, meaning it is an antigen created from two different sources, part virus and part murine monoclonal antibody.

Dr. Tyrrell’s work at ViRexx Medical with Dr. George suggested the linked-recognition theory might be the key to breaking tolerance. Dr. George emphasized, “The new ‘chimigen’ stimulates an immune response to the antigen as well as the viral antigen. This is very important because the virus antigen was previously being ignored.” That brings us back to why lamivudine had limited success. The immune systems of some HBV carriers failed to recognize the viral infection as a threat to the body. Tyrell’s ViRexx Medical research team hopes the body’s immune system sees the threat, thus stimulating the immune system, and breaking tolerance. It appears Dr. Tyrell may soon find out whether or not the questions he asked will bring the answers he hoped for.

END OF PART ONE

While preparing a lecture in biochemistry and virology for his graduate students at the University of Alberta in the early 1980s, Dr. Lorne Tyrrell ran across a study just published in the medical journal, Cell. The research by William Mason and Jesse Summers, entitled “Replication of Hepatitis B,” discussed their study of the hepatitis B virus in infected duck liver.

A SCIENTIST’S 20-YEAR UNFINISHED JOURNEY TO TREAT HBV MAY OPEN THE DOOR TO A NEW CLASS OF FLEXIBLE VACCINES

After studying their duck model theory, Tyrrell speculated if the hepatitis B virus (HBV) might be susceptible to antiviral agents, and consulted with a colleague, who specialized in nucleoside chemistry. Both medical professors became excited about the possibility of inhibiting the HBV virus with nucleoside analogues. Thus began the infectious disease specialist’s first leg of a journey, which led to the use of lamivudine as a therapy for chronic HBV infections.

More than 350 million people across the world, especially in Asia, now had new hope, some for their lifelong infections contracted vertically at birth from their mothers. In 2003, the Center for Disease Control estimated 73,000 Americans were infected with HBV, and about 5,000 die each year from sickness caused by HBV. It is reportedly 100 times more contagious than the AIDS virus. Many in North America, who had been infected with the virus from sexual transmission or intravenous drug use, were offered a potentially life-saving therapy.

Licensed in 1998, lamivudine is now used in 120 countries as a standard therapy for chronic HBV carriers. The compound is also used in combination with other drugs, such as protease inhibitors, for HIV therapy. Development rights were licensed to Glaxo Wellcome in 1990, which is now sold under the brand name Epivir®. For his pioneering efforts in developing the antiviral agent, Dr. Tyrrell was awarded the gold medal by the Canadian Liver Foundation and the Canadian Association for the Study of Liver in 2000. In 2005, he won the prestigious EnCana Principal Award for his development of the first effective oral medication for Hepatitis B.


HIS UNANSWERED QUESTIONS LAUNCHED A NEW HBV INVESTIGATION

Despite the awards and recognition, questions remained for Dr. Tyrrell about the shortcomings of lamivudine. He was troubled that some viruses would develop resistance to the compound. “I was disappointed the sustained viral response was not complete,” Tyrrell told us. In April 2003, the Journal of Antimicrobial Chemotherapy published a study in Japan showing, “long-term (lamivudine) therapy is associated with increased emergence of lamivudine-resistant strains of HBV.” Researchers concluded in this study, “The therapeutic challenge to effectively treat chronic HBV infection continues.”

Having screened lamivudine for use in Hepatitis B at Glaxo’s research lab at the University of Alberta, Dr. Tyrrell was able to observe the immune response of various HBV patients. “What really got me interested in doing more work in this area was that we noticed patients, who have an immune response to the virus and take lamivudine, will have a better sustained response rate,” Tyrrell explained. “A patient with elevated liver transaminases taking lamivudine had a higher probability of a sustained viral response,” Tyrrell said with excitement in his voice. “In a patient with normal liver enzymes, who gets lamivudine, the virus will go down, but as soon as you stop the therapy, the virus comes right back up.” He told us the sustained viral response is only about two to three percent. Only about 30 percent remain free of the virus, about one year after patients have stopped taking lamivudine.

“How do you break tolerance?” Tyrrell asked himself, hoping to develop a way to stimulate an immune response. All of the patients, he had observed, seemed to be tolerant of the hepatitis B virus. He pondered the dilemma, “Was there some way to break tolerance to hepatitis B by stimulating the immune response?” Tyrrell studied what others were attempting and wasn’t satisfied with the approaches others were taking to stimulate immune response. His ViRexx Medical research team brainstormed about different ways to target the antigen into the dendritic cells.

“That’s where we came in with the Chimigen™ technology,” Tyrrell said. “The dendritic cells have receptors on their surface that will bind the Fc portion of an antibody.” He pointed out a key feature of the Chimigen™ platform, “We used the Fc portion of a murine (mouse) antibody to hook onto our hepatitis B antigens. This would direct the viral antigens into dendritic cells in vivo.” Because the dendritic cells are the sentries of the immune system, they guard what comes in. Recognizing a ‘foreign situation’ in the murine antibody, it treats the whole molecule including the virus antigen as foreign.

LINK RECOGNITION MAY HOLD THE KEY

Dr. Rajan George, ViRexx Medical’s vice president of research and development, told us, “The dendritic cells chop up this protein into small pieces called peptides, also known as epitopes. The dendritic cells have a system where they put the T-cell epitope on another protein, MHC Class I, and bring it to the surface of the dendritic cell. They are presented as a complex on the surface of the dendritic cell to attract the T-cells.” When the T-cells arrive to inspect the foreign entity, the cytotoxic T-cells are activated. Then, they begin attacking and killing the virus-infected cells.

Research at Tokyo’s Cancer Institute Hospital, published in 1987 in Nippon Sanka Fujinka Gakkai Zasshi, suggested a feasibility of linked recognition of a virus antigen as a helper in tumor immunity with a target antigen. In the case of ViRexx Medical, Tyrrell’s team has created a new molecule, called “chimigen.” The term is shorthand for a chimeric antigen, meaning it is an antigen created from two different sources, part virus and part murine monoclonal antibody.

Dr. Tyrrell’s work at ViRexx Medical with Dr. George suggested the linked-recognition theory might be the key to breaking tolerance. Dr. George emphasized, “The new ‘chimigen’ stimulates an immune response to the antigen as well as the viral antigen. This is very important because the virus antigen was previously being ignored.” That brings us back to why lamivudine had limited success. The immune systems of some HBV carriers failed to recognize the viral infection as a threat to the body. Tyrell’s ViRexx Medical research team hopes the body’s immune system sees the threat, thus stimulating the immune system, and breaking tolerance. It appears Dr. Tyrell may soon find out whether or not the questions he asked will bring the answers he hoped for.

http://cn.articlesbase.com/article_31829.html

准备演讲病毒学和生物化学的研究生,他在艾伯塔大学在八十年代初期,lornetyrrell碰过一个博士研究刚刚出版的医学杂志细胞. 梅森和研究的威廉杰西・萨默斯题为"乙型肝炎复制",谈了自己学习的鸭乙型肝炎病毒感染肝.

科学家的20年未完的旅程乙肝治疗可能开启一个新的疫苗类弹性

经过研究鸭模型理论tyrrell猜测如果乙肝病毒(HBV)可能易受抗病毒药剂,并广泛征求了同事核苷化学专业人士. 医学教授都成了兴奋的可能性抑制乙肝病毒核苷类似物. 因此传染病专科开始的第一站行程,导致使用拉米夫定作为治疗慢性乙型肝炎病毒感染.

逾350万人在世界各地,尤其是在亚洲,现在已拥有了新的希望,他们有的终身合同垂直感染母亲从出生. 2003年,美国疾病控制中心估计,73,000人感染乙肝、每年约有5000患病死亡造成乙肝. 据报道,100倍,比艾滋病病毒的传染性. 许多在北美、曾感染病毒性传播或静脉吸毒80707潜在救命疗法.

牌,1998年120个国家使用拉米夫定现已作为标准治疗慢性乙肝病毒携带者. 大院还结合使用其他药物,如蛋白酶抑制剂,艾滋病毒疗法. GlaxoWellcome公司开发许可权在1990年现已售出epivir®品牌. 他开创性努力发展抗病毒药剂tyrrell博士荣获金牌由加拿大肝脏基金会和加拿大肝脏研究协会2000年. 2005年他赢得了荣誉奖,其主要encana开发有效的口服药物治疗乙型肝炎首

他回答乙肝发起新调查

尽管奖励和表扬,对问题仍不足约博士tyrrell拉米夫定. 他说,有些困扰会出现抗药性病毒的化合物. "我感到失望的持续病毒反应未完成"tyrrell告诉我们. 2003年4月,该杂志刊登一项研究抗菌化疗在日本放映"长期治疗(拉米夫定)与渐趋出现拉米夫定耐药株乙肝" 这项研究的研究人员得出结论:"治疗性挑战仍然有效治疗慢性乙型肝炎病毒感染"

经筛选用拉米夫定葛兰素乙肝在研究实验室在艾伯塔大学、博士tyrrell能够遵守各项乙肝患者免疫反应. "到底拉去兴趣在这方面做更多的工作,我们注意到病人有一种免疫反应的病毒,并采取拉米夫定,有一个更好的持续反应率"tyrrell解释. "以病人转氨酶升高拉米夫定有更高的概率持续病毒反应,"他兴奋地说tyrrell声音. "在一个正常患者肝脏酵素,谁人拉米夫定,病毒便会下降,但只要你停止治疗,病毒是正确备份." 他告诉我们,只有持续病毒反应是2时58%左右. 只有30%左右留无病毒,大约一年后,病人已停止拉米夫定.

"你怎么休息忍"? tyrrell问自己,希望开发一种刺激免疫反应. 所有病人,他曾观察到,似乎是宽容的乙肝病毒. 他思索两难"是有方法打破乙肝耐受刺激免疫反应"? tyrrell学习别人也企图和不满意等办法来刺激免疫反应走. 他的医学研究小组集思广益virexx约针对不同抗原进入树突状细胞.

"这正是我们在与前来chimigen™技术"tyrrell说. "树突状细胞表面有其受体,会束缚了部分抗体财" 他指出的重要特征chimigen™平台"我们用了一部分财鼠(鼠标)钩上的乙肝抗体抗原.这将直接病毒抗原的树突状细胞在体内转化." 由于树突状细胞是免疫系统的哨兵,他们什么地方.卫队认识『国外局势的抗体在小鼠、它把整个包括病毒抗原分子外.

识别可能的关键环节举行

乔治博士人犯,virexx医学的研究和开发副总裁告诉记者,"这个印章树突细胞蛋白肽叫成小块,又称抗原.树突细胞产生的制度在那里把T细胞抗原另一蛋白质,MHCⅠ类、而使其表面的树突状细胞.他们是作为一个复杂的树突状细胞的表面吸引T细胞." 当T细胞到达检查外国实体,细胞毒性T细胞活化所. 然后,他们开始攻击,杀死病毒感染的细胞.

研究在东京的医院癌症研究所发表的1987年日本sankafujinka价学会zasshi,建议的可行性联系确认病毒抗原作为帮手在同一个目标肿瘤免疫抗原. 在发生医疗virexx,tyrrell队创造了一个新的分子,被称为"chimigen" 速记名词是一个嵌合抗原,它的含义是从两个不同的来源产生抗原、部分病毒及部分小鼠单克隆抗体.

tyrrell医师的医疗工作virexx与建议联系佐治承认理论可能要打破宽容. 佐治强调,"新版<chimigen'刺激免疫反应的病毒抗原,以及抗原.这很重要,因为这种病毒抗原原先被忽视." 引领我们为什么拉米夫定有限的成功. 部分乙肝病毒携带者的免疫系统不承认病毒感染人体的威胁. tyrell的医学研究小组希望virexx人体免疫系统视威胁,从而刺激人体的免疫系统,打破耐受. 看来博士tyrell可能很快找出问题,他问是否会带来他所希望的答案.

第一部分结束
实事求是,注重科学,坚持真理,敢讲真话
敢为人先,务实进取,开放兼容,敬业奉献
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