HYBRIDOMA TECHNOLOGY
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Mar 23, 2023
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About This Presentation
Hybridoma Technology, Principle, Procedure, Merits & Demerits, Applications, References.
Slide Content
HYBRIDOMA
TECHNOLOGY
Presentedby,
ASWINISASIDHARAN
FIRSTSEMESTERM.PHARM
PHARMACEUTICAL CHEMISTRY
TECHNOLOGY
Presentedby,
ASWINISASIDHARAN
FIRSTSEMESTERM.PHARM
PHARMACEUTICAL CHEMISTRY
HYBRIDOMA TECHNOLOGY
•Hybridomatechnology is a method of forming hybrid cell lines
(hybridomas) by fusing a specific antibody-producing B-cell
with a myeloma cell (cancerous cell).
HISTORY
•The production of monoclonal antibodies was first done by
Niels K.J. Georges, J.F. Kohler and Cesar Milstein in 1975.
•Hybridomatechnology is a method of forming hybrid cell lines
(hybridomas) by fusing a specific antibody-producing B-cell
with a myeloma cell (cancerous cell).
HISTORY
•The production of monoclonal antibodies was first done by
Niels K.J. Georges, J.F. Kohler and Cesar Milstein in 1975.
PRINCIPLE
•It is based on the fusion between myeloma cells (malignant plasma cells)
and spleen cells from a suitably immunized animal.
•Spleen cells die in a short period under ordinary tissue culture conditions
while myeloma cells are adopted to grow permanently in culture.
•From the growing hybrids, individual clones can be chosen that secrete
the desired antibodies.
•It is based on the fusion between myeloma cells (malignant plasma cells)
and spleen cells from a suitably immunized animal.
•Spleen cells die in a short period under ordinary tissue culture conditions
while myeloma cells are adopted to grow permanently in culture.
•From the growing hybrids, individual clones can be chosen that secrete
the desired antibodies.
PROCEDURE
1. Immunization.
2. Isolation of myeloma cells.
3. Fusion between spleen cell and myeloma cell.
4. Selection of HAT medium.
5. Isolation of hybridomacell.
6. Screening of hybridomacell.
1. Immunization.
2. Isolation of myeloma cells.
3. Fusion between spleen cell and myeloma cell.
4. Selection of HAT medium.
5. Isolation of hybridomacell.
6. Screening of hybridomacell.
Immunization of specific animal
Antigenimmunizedtoanimal(likemice)viaintravenously.
Inspleen,activatesB-cellinwhichitproducesplasmacell
Plasmacellproducesmonoclonalantibodies
Isolationofplasmacellfromspleenofanimal.
Antigenimmunizedtoanimal(likemice)viaintravenously.
Inspleen,activatesB-cellinwhichitproducesplasmacell
Plasmacellproducesmonoclonalantibodies
Isolationofplasmacellfromspleenofanimal.
Isolation of myeloma cells
•Myeloma cells are cancerous cells which is isolated from
bone-marrow.
•Generally immortal in nature and has multiplication
property.
•Myeloma cells are cancerous cells which is isolated from
bone-marrow.
•Generally immortal in nature and has multiplication
property.
Fusion of spleen cell and myeloma cell
•It requires PEG medium for fusion
•It can also done by electro fusion.
•Fusion between spleen cell and myeloma cell produces five
different types of cells;
●Fused plasma
●Fused myeloma
●Hybridoma
●Unfused plasma
●Unfused myeloma
•It requires PEG medium for fusion
•It can also done by electro fusion.
•Fusion between spleen cell and myeloma cell produces five
different types of cells;
●Fused plasma
●Fused myeloma
●Hybridoma
●Unfused plasma
●Unfused myeloma
Fusion of spleen cell & myeloma cell
Selection of HAT medium
•Before multiplication of Anti-body, it has to synthesize new
copy of DNA and for that it require synthesis of nucleotide.
•Synthesis of nucleotide have two pathways:
•
1. Salvage pathway
2. De-novo Synthesis
•Before multiplication of Anti-body, it has to synthesize new
copy of DNA and for that it require synthesis of nucleotide.
•Synthesis of nucleotide have two pathways:
•
1. Salvage pathway
2. De-novo Synthesis
Dihydrofolate
Tetrahydrofolate
Nucleoside DNA
Denovo synthesis
Salvage pathway
Aminopterin
Hypoxanthine
Thymine
Tetrahydrofolate
Nucleoside DNA
Denovo synthesis
Salvage pathway
Aminopterin
Hypoxanthine
Thymine
Isolation Of Hybridoma Cells
Only the hybridoma cells survive in HGPRT Medium.
HGPRT
●Fused plasma -present
●Fused myeloma -absent
●Hybridoma -present
●Unfused plasma -present
●Unfused myeloma -absent
Spleen cells have HGPRT Enzyme while myeloma doesn’t have it.
Only the hybridoma cells survive in HGPRT Medium.
HGPRT
●Fused plasma -present
●Fused myeloma -absent
●Hybridoma -present
●Unfused plasma -present
●Unfused myeloma -absent
Spleen cells have HGPRT Enzyme while myeloma doesn’t have it.
Screening of hybridomacell
•ELISA screening method which done by incubating hybridoma
culture in which secondary enzyme gets conjugate and
formation of colouredproduct shows positive hybridoma.
•Hybridoma cells producing desired antibody was identified by
screening.
•Cloning, Propagation, Production & Purification has been done.
•ELISA screening method which done by incubating hybridoma
culture in which secondary enzyme gets conjugate and
formation of colouredproduct shows positive hybridoma.
•Hybridoma cells producing desired antibody was identified by
screening.
•Cloning, Propagation, Production & Purification has been done.
PRODUCTION OF MONOCLONAL ANTIBODIES BY HYBRIDOMA TECHNOLOGY
MERITS
•It produces highly specific antibodies in abundant amounts.
•The clones developed are far cheaper than the traditionally
•employed animals.
•It produces high quality products, to avoid the batch to batch
variation.
•
•It produces highly specific antibodies in abundant amounts.
•The clones developed are far cheaper than the traditionally
•employed animals.
•It produces high quality products, to avoid the batch to batch
variation.
•
DEMERITS
•Many patients develop immune resistance to monoclonal
antibodies produced by mice, as these are foreign proteins.
•Hybridomaculture may be subjected to contamination.
•System is only well developed for mouse and rat, not for the
other animals.
•More than 99% of the cells do not survive during the fusion
process.
•Many patients develop immune resistance to monoclonal
antibodies produced by mice, as these are foreign proteins.
•Hybridomaculture may be subjected to contamination.
•System is only well developed for mouse and rat, not for the
other animals.
•More than 99% of the cells do not survive during the fusion
process.
APPLICATIONS
1. Serological -Identification of ABO blood group.
2. Diagnosis -Early detection of Pregnancy
HIV
Cancer
3. Immunopurification -Purification of individual interferones.
Inactivation of T lymphocytes
4. Therapy -Removal of tumour cell.
Acute renal failure
Leukemia
1. Serological -Identification of ABO blood group.
2. Diagnosis -Early detection of Pregnancy
HIV
Cancer
3. Immunopurification -Purification of individual interferones.
Inactivation of T lymphocytes
4. Therapy -Removal of tumour cell.
Acute renal failure
Leukemia
References
•Current Trends in Biotechnology By Dr S satyalakshmi, pageno; 294-
302.
•A Textbook of Pharmaceutical Biotechnology By Mr Akshay Shashikant
Patil, Dr Md Rageeb Md Usman, Dr Vijay Mishra, Dr Bhushankumar S
Sathe, pageno; 126-134.
•Textbook of Biotechnology By Sathyanarayanan U, pageno; 213-226.
•Current Trends in Biotechnology By Dr S satyalakshmi, pageno; 294-
302.
•A Textbook of Pharmaceutical Biotechnology By Mr Akshay Shashikant
Patil, Dr Md Rageeb Md Usman, Dr Vijay Mishra, Dr Bhushankumar S
Sathe, pageno; 126-134.
•Textbook of Biotechnology By Sathyanarayanan U, pageno; 213-226.
THANK YOU
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