Antibody Immune Profile Clinical Trial
The immune system is a dynamic, constantly evolving network. Excluding autoimmune diseases,
healthy individuals are also known to have a large number of circulating antibodies that can
recognize proteins of their own tissues. These antibodies are known as natural antibodies
and previous studies suggested that some features of these "self" components are shared by
individuals in certain physiological states. Thus, monitoring self immunoglobulins can
provide an overview of the various states of the immune system. To do so, and in the process
to obtain systems biology view of the immune system, the newly developed Antigen Chip
technology has been used.
To further investigate this subject we plan to carry out broader investigations that will be
conducted in collaboration with the group of Prof. Eshel Ben-Jacob from the university of
Tel-Aviv and Prof. Irun Cohen from the Weizmann Institute that have the required
experimental and analytical expertise and facilities. The studies will include follow-up on
the immune state of babies and their mothers for several months post birth using the Antigen
Chip and analyzed by the Immune holography method. The investigations will also include
comparative studies between the immune signature of different body fluids, the effects of
feeding, and the effect method and time of labor.
Antibody reactivities are traditionally studied by their individual reactivities to one or only a few antigens, whereas only a small number of studies have focused on the repertoires of antibodies to large numbers of defined antigens. Only recently, a new technology for system level analysis, the immune microarrays (or antigen chips) was introduced [Quintana 2004, Quintana and Cohen 2004, Robinson 2006]. This technology is capable of detecting patterns of antibodies binding to many hundreds of antigens, foreign or self and thus allowing a systems biology view of immune system. To create the antigen chips, a robotic apparatus is used to spot the antigen molecules of choice - proteins, peptides, sugars, lipids, nucleic acids - to a coated glass slide. These antigens are covalently linked to the surface of the slide and a drop of blood serum or any other body fluid can be tested for antibodies binding to hundreds of these antigen spots. The subject's bound antibodies are detected using fluorescence-labeled second antibodies and the reactions are monitored by laser activation. ;
Observational Model: Cohort, Time Perspective: Prospective