Adenovirus-based Gene Therapy: a Promising Novel Cancer Therapy: Difference between revisions
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Adenovirus (Ad) based cancer gene therapy is an innovative and novel treatment in treating severe and unresponsive cancer today. Gene therapy is a new approach to traditional therapies to combat severe forms of cancer. Gene delivery is used to “correct” and rebuild broken down and infected tissue. | Adenovirus (Ad) based cancer gene therapy is an innovative and novel treatment in treating severe and unresponsive cancer today. Gene therapy is a new approach to traditional therapies to combat severe forms of cancer. Gene delivery is used to “correct” and rebuild broken down and infected tissue. | ||
Ad is highly coveted for its ability to effectively tansduce cells both dividing and non-dividing, its flexibility and ability to produce high titers. | Ad is highly coveted for its ability to effectively tansduce cells both dividing and non-dividing, its flexibility and ability to produce high titers. | ||
Infection of Ad is mediated by the binding of the fiber knob region to the receptor of target cell, coxsackie-Ad receptor (CAR), for most serotypes in Ad, most commonly serotype 5. Entry and internalization of the virus is mediated by an interaction between the penton-base Arg-Gly-Asp (RGD) and cellular αvβ integrins, leading to the endocytosis of viron through clathrin-coated pits. The virus disassembles in the endosome while the viral DNA is transported to the nucleus. Resulting in expression of viral genes or transgenes. Ad DNA is not integrated in the host genome so the risk of mutagenosis is extremely low. | Infection of Ad is mediated by the binding of the fiber knob region to the receptor of target cell, coxsackie-Ad receptor (CAR), for most serotypes in Ad, most commonly serotype 5. Entry and internalization of the virus is mediated by an interaction between the penton-base Arg-Gly-Asp (RGD) and cellular αvβ integrins, leading to the endocytosis of viron through clathrin-coated pits. The virus disassembles in the endosome while the viral DNA is transported to the nucleus. Resulting in expression of viral genes or transgenes. Ad DNA is not integrated in the host genome so the risk of mutagenosis is extremely low. | ||
Secondary receptor interactions, heparan sulfate proteoglycans (HSPGs) have also been reported. Expression of CAR is rate-limiting factor for infectivity with Ad5 and is highly variable in primary human tumor cells. This loss of CAR expression may be due to the progression of malignant tumors and its aggressiveness. CAR is localized within tight junctions, playing a role in cell adhesions. | |||
Ad vectors have been used for many gene therapy applications. There has been little experimental data of gene transfer with Ad, giving little evidence to significant benefits, with only Phase I and II trials to date. Many approaches to other targets and capsid modifactions are also being researched. | |||
==Current Gene Therapy== | ==Current Gene Therapy== | ||
Revision as of 04:40, 13 November 2012
A Viral Biorealm page on the family Adenovirus-based Gene Therapy: a Promising Novel Cancer Therapy
Adenovirus is Key Component
Adenovirus (Ad) based cancer gene therapy is an innovative and novel treatment in treating severe and unresponsive cancer today. Gene therapy is a new approach to traditional therapies to combat severe forms of cancer. Gene delivery is used to “correct” and rebuild broken down and infected tissue.
Ad is highly coveted for its ability to effectively tansduce cells both dividing and non-dividing, its flexibility and ability to produce high titers.
Infection of Ad is mediated by the binding of the fiber knob region to the receptor of target cell, coxsackie-Ad receptor (CAR), for most serotypes in Ad, most commonly serotype 5. Entry and internalization of the virus is mediated by an interaction between the penton-base Arg-Gly-Asp (RGD) and cellular αvβ integrins, leading to the endocytosis of viron through clathrin-coated pits. The virus disassembles in the endosome while the viral DNA is transported to the nucleus. Resulting in expression of viral genes or transgenes. Ad DNA is not integrated in the host genome so the risk of mutagenosis is extremely low.
Secondary receptor interactions, heparan sulfate proteoglycans (HSPGs) have also been reported. Expression of CAR is rate-limiting factor for infectivity with Ad5 and is highly variable in primary human tumor cells. This loss of CAR expression may be due to the progression of malignant tumors and its aggressiveness. CAR is localized within tight junctions, playing a role in cell adhesions. Ad vectors have been used for many gene therapy applications. There has been little experimental data of gene transfer with Ad, giving little evidence to significant benefits, with only Phase I and II trials to date. Many approaches to other targets and capsid modifactions are also being researched.
Current Gene Therapy
Mechanisms
Developments
