We
know how antibodies perform in our body to restrict the foreign
invasions, so that we can protect ourselves from various illnesses
caused by viruses and bacteria.
Other than these usual
physiological activities, they are found to have lent their hands in the
development of Induced Pluripotent Stem Cells by using external
parameters. This, we can take as a major breakthrough in the field of
medical science, which could be effective in producing different drugs,
and medicinal therapies to combat a range of diseases.
In a recent
research by the scientists at The Scripps Research Institute (TSRI), it
has been proved that antibodies could be a useful component to a new
approach as "reprogramming" ordinary adult cells into stem cells or
induced pluripotent cells. And to do the "reprogramming" techniques into
the DNA's of the adult cells, no invasive procedures are needed to be
followed as is with the "reprogramming of stem cells in the human body".
We
already have an insight into how induced pluripotent cells act to
differentiate into any cell types and proliferate in the body. With
potentials like self-renewal, iPSCs are ideal to be used as a model to
identify the etiology of diseases, find new drugs or therapy using stem
cells of patients. However, the same functions can be executed by the
human antibodies too. This is what scientists at the Scripps Research
Institute (TSRI) have focused on this new development. The finding of
the study has been made available online in the Nature Biotechnology.
Why Antibodies are Better Than iPSCs?
The
process of developing iPSCs involves a manipulation of the genome in
the DNA of fibroblasts, found in the skin or connective tissues. These
cells could easily be converted into stem cells or iPSCs by adding four
transcription gene factors of the DNA of these cells. However, the
antibodies as found by the scientists do not follow the same path once
introduced to the mature cells, and replace three key transcription gene
factors to bind to the proteins of the cells.
Using four
transcription genes,s including Oct4, Sox2, Klf4 and c-Myc into the
nucleus of the mature or adult cells derived from the patients' own
cells, iPSCs are developed for a variety of medical purposes, say organ
regeneration or cell therapies. There have been a few evidences of risks
of producing iPSCs cells, hence we fail to experience much practical
use of these cells in the medical field.
The development of iPSCs
cells depend on the OSKM theory, meaning using these four protein
factors and encoding them, they reprogram cells into induced pluripotent
cells.
However, the insertion of those proteins into the genes
can invite the attack of viruses, or overproduction of nuclear
manipulation techniques may cause cancer to the DNA cells. On the other
hand, the production of iPSCs through nuclear reprogramming fosters the
collections of different variable properties.
While antibodies do
not use any extra DNA as iPSCs to reprogram mature cells into stem cells
or iPSCs, it takes into account only three key transcription gene
factors excluding the fourth transcription gene factor Klf4.
Hence,
iPSCs derived from antibodies could have fewer mutations, and better
properties to be used as an effective model in the lab.
The Process Of The Study
The
research was carried out on a collection of 100 million human
antibodies to examine if any of the antibody could develop iPSCs by
replacing OSKM transcription factors. The process was examined on the
fibroblasts of mice, and cultured in the lab using first two factors of
OSKM such as Oct4 and Klf4. Later on, the entire library of antibodies
was placed in the culture tray to find a replacement of functions of
other two gene factors such as Sox2 and c-Myc. The study had a positive
outcome with a development of iPSCs with antibody triggering the DNA
sequencing response. It focused on the replacement of Oct4 using the
same technique. However, it was not possible to find any replacement of
fourth transcription gene factor Klf4.
The objective is now more
concentrated on finding a fourth gene factor replacement to make the
whole process shifted on antibody's insertion for iPSCs production. And
once we would be able to do it, we will have less number of negative
outcomes.
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