UC San Francisco scientists have engineered human immune cells that can precisely locate diseased cells anywhere in the body and execute a wide range of customizable responses, including the delivery of drugs or other therapeutic payloads directly to tumors or other unhealthy tissues.
In experiments with mice, these immune cells, called synNotch T cells, efficiently homed in on tumors and released a specialized antibody therapy, eradicating the cancer without attacking normal cells.
As reported in the online edition of Cell, in addition to delivering therapeutic agents, synNotch cells can be programmed to kill cancer cells in a variety of other ways. But synNotch cells can also carry out instructions that suppress the immune response, offering the possibility that these cells could be used to treat autoimmune diseases such as type 1 diabetes or to locally suppress immune system rejection of transplanted organs.
The new research broadens and deepens previous research on synNotch T cells in Lim's laboratory, which has shown, among other things, that the synNotch sensor platform can be used to create custom "logic gates" in T cells that allow them to recognize and kill cancer cells, while protecting closely related healthy cells. These cellular "AND gates" require two separate conditions to be met in target cells before the T cells take steps to eliminate the target.
T cells are highly motile, and roam throughout the body seeking out diseased or infected cells. A form of T cell therapy known as CAR (Chimeric Antigen Receptor) T therapy has been widely publicized for its unprecedented success in treating a form of blood cancer known as acute lymphoblastic leukemia, or ALL.
But because CAR T therapy largely relies on the "built-in" sensing and response properties of T cells, some of which can be deleterious, it can have serious side effects. Moreover, because T cells are often unable to overcome properties of tumors that suppress immunity, CAR T therapy has so far not been effective against the solid tumors that affect the breast, prostate, brain, lungs and other organs. Senior author said that the synNotch technology developed at UCSF can be used on its own, but can also be added to CAR T cells to sidestep many of that therapy's current limitations.
SynNotch is so called because it is the product of several synthetic alterations of Notch, a protein involved in cell-to-cell communication in diverse organisms that is especially crucial for normal development. First of all, the synNotch receptor acts as a "universal sensor" – it has a component protruding from the T cell that can be swapped out to specifically recognize many different types of disease signals. And synNotch's other end, inside the cell, is an "effector" component that can be engineered to cause the cell to carry out diverse responses.
https://static1.squarespace.com/static/573a77a6e707ebeda91c1fda/t/57ee0e9e893fc0c995d9a9a8/1475219102500/September+Cell+Publication+09-29-16+FINAL3.pdf
Delivering drugs directly to tumors by programming T cells
- 2,205 views
- Added
Edited
Latest News
How protein synthesis in de…
By newseditor
Posted 22 Apr
Atlas of mRNA variants in d…
By newseditor
Posted 22 Apr
Mapping microbiome in metas…
By newseditor
Posted 22 Apr
Full-length mRNA packaged i…
By newseditor
Posted 22 Apr
Glucose-sensing mechanism t…
By newseditor
Posted 21 Apr
Other Top Stories
Curing drug-resistant infections without antibiotics
Read more
Engineered enzyme eliminates nicotine addiction in preclinical tests
Read more
Linking genes to social behavior!
Read more
Unmasking blood doping in athletes - Micro RNA to differentiate old…
Read more
Brain signaling in aggressive behavior identified!
Read more
Protocols
A programmable targeted pro…
By newseditor
Posted 23 Apr
MemPrep, a new technology f…
By newseditor
Posted 08 Apr
A tangible method to assess…
By newseditor
Posted 08 Apr
Stem cell-derived vessels-o…
By newseditor
Posted 06 Apr
Single-cell biclustering fo…
By newseditor
Posted 01 Apr
Publications
Neuronal activity rapidly r…
By newseditor
Posted 22 Apr
A perspective on muscle phe…
By newseditor
Posted 22 Apr
Foxp1 suppresses cortical a…
By newseditor
Posted 22 Apr
Single-cell long-read seque…
By newseditor
Posted 22 Apr
Unlocking potential: the ro…
By newseditor
Posted 22 Apr
Presentations
Hydrogels in Drug Delivery
By newseditor
Posted 12 Apr
Lipids
By newseditor
Posted 31 Dec
Cell biology of carbohydrat…
By newseditor
Posted 29 Nov
RNA interference (RNAi)
By newseditor
Posted 23 Oct
RNA structure and functions
By newseditor
Posted 19 Oct
Posters
A chemical biology/modular…
By newseditor
Posted 22 Aug
Single-molecule covalent ma…
By newseditor
Posted 04 Jul
ASCO-2020-HEALTH SERVICES R…
By newseditor
Posted 23 Mar
ASCO-2020-HEAD AND NECK CANCER
By newseditor
Posted 23 Mar
ASCO-2020-GENITOURINARY CAN…
By newseditor
Posted 23 Mar