Classifications

• • C—CHEMISTRY; METALLURGY
  • C07—ORGANIC CHEMISTRY
  • C07K—PEPTIDES
  • C07K16/00—Immunoglobulins [IGs], e.g. monoclonal or polyclonal antibodies
  • C07K16/18—Immunoglobulins [IGs], e.g. monoclonal or polyclonal antibodies against material from animals or humans

Definitions

• Amylases are usually measured in biological samples by measuring their ability to degrade starch or related compounds. Such assays measure not only amylases produced by the pancreas, but also those amylases produced by, e.g., salivary glands, fallopian tubes, etc. As a result, amylase may be increased in serum or urine when any of these other organs are diseased. This severely limits the diagnostic value of measuring amylase as an aid in the diagnosis of pancreatic disease.
• pancreatic amylases There has been a longstanding need for a simple, rapid, specific method for the measurement of pancreatic amylases in biological samples. However, it has been difficult to distinguish the pancreatic and salivary-type amylases because of their close similarity. The amylases have been separated by electrophoresis, column chromatography and isoelectric focusing. However, these are, at best, slow and cumbersome. An inhibitor of salivary-type amylases has been found and applied to the measurement of pancreatic amylase. Howevr, the inhibitor also inhibits pancreatic amylase to a lesser extent. Thus, the inhibitor method does not allow a direct measurement of pnacreatic amylases. (We use the term ⁇ amylase" to indicate human alpha amylasas.)
• pancreatic amylases specifically in the presence of salivary and other amylases without interference from the salivary and other amylases that are closely related to salivary amylases. It is also a further object of this invention to do this simply, cheaply and rapidly in order that this type of test may be utilized in any routine clinical laboratory set up.
• the present inventors have achieved this invention as a result of their earnest research work to overcome such disadvantages as found with the prior art by developing the monoclonal antibody which reacts with human salivary type amylase but not human pancreatic amylase.
• This invention provides a hybridoma cell line which produces a monoclonal antibody reactive with human salivary but not human pancreatic amylase.
• the hybridoma is the fusion product of spleen donor cells from A/J mice, a H-2 haplotype, immunized with the purified human amylase, with SP2/0 myeloma d cells H-2 haplotype.
• This invention provides an antibody which reacts with human salivary-type amylase but not with human pancreatic amylase.
• the preferred antibody has structural characteristics of the IgG-2a subclass.
• An embodiment of the antibody has attached to it an insoluble matrix such as latex or an immunochemical stain.
• the immunochemical stain can, for example, be fluorescein or those involved in the avidin-biotin or peroxidase/antiperoxidase immunochemical staining procedures.
• the invention further provides a process for using a monoclonal antibody comprising reacting a monoclonal antibody, which is reactive with human salivary-type amylase but not with human pancreatic amylase, with an unknown sample.
• One process provides taking a monoclonal antibody, which is reactive with human salivary-type amylase but not with human pancreatic amylase ⁇ which is bound to an insoluble matrix, and reacting it with an unknown sample.
• the process could be any competitive protein binding procedure, such as radioimmunoassay, enzyme immunoassay or a procedure such as ELISA, i.e. enzyme linked im unosorbent assay.
• the most useful clinical method is to first determine the total amylase concentration of the unknown sample by any of the routine methods available, then taking the monoclonal antibody which is reactive with human salivar -type amylase but not with human pancreatic amylase and which has also been coupled to an insoluble matrix and reacting this with another portion of the unknown sample ⁇ centrifuging the insoluble complex down to a pellet, taking the supernatant and determining the total amylase again by any of the available methods. Total amylase in the supernatant relfects pancreatic amylase in the sample. Subtracting the last concentration determination of pancreatic amylase from the first concentration determination of total amylase results in the determination of the concentration of salivary-type amylase.
• the inventors arrived at their invention by first obtaining purified, human salivary-type amylase (Zakowsky, Gregory and Bruns, Clinical Chemistry 30:62, 1984.) and immunizing mice with this antigen. The spleens from these mice were excised, and a single cell suspension prepared in serum free medium. These cells were then mixed with SP2/0 myeloma cells at a 2:1 ratio in a centrifuge tube.
• the mixture of spleen cells and myeloma cells was centifuged. The supernatant was then drawn off, and the pellet resuspended in an aliquot of a specific type of polyethylene glycol.
• the polyethylene glycol promotes fusion of the cells in the mixture.
• the procedure results in various fusion products, which are: spleen cell-spleen cell hybrids, spleen cell-myeloma cell hybrids and myeloma cell-myeloma cell hybrids.
• a selective pressure was set up which effects the isolation of the spleen cell-myeloma cell hybrids, which is the hybridoma.
• the hybridoma was then cloned by limiting dilution in culture.
• Antibody from this hybridoma has been produced in several ways: (1) harvesting supernatant from growth of the hybridoma in tissue culture; and (2) induction of an ascites tumor by injection of the hybridoma cells into the peritoneal cavity of a * histocompatible CAF mouse and harvesting the antibody from the resulting
• Figure 1 is a graph depicting the antibody reacting with the salivary- type amylase but not the pancreatic type amylase.
• a monoclonal anti-amylase antibody is used to remove nonpancreatic amylases from samples such as serum, urine and tissue samples. Generally, samples containing amylases are prepared, and their total amylase content is determined by means of any suitable method. Sufficient antibody is then added to bind all of the salivary type amylase. The amylases that are bound to the antibody are then precipitated by such techniques as those using a second antibody directed against the first antibody. Alternatively, the anti-amylase activity can .be coupled or bound to an insoluble support so that the bound amylases are removed from solution without the need of a second ' antibody, i.e., Staph A, etc.
• pancreatic amylases remaining in the samples are then measured by determining their enzymatic activity (by any convenient method) or by using an antibody-based method or by any other technique that proves capable of measuring amylases generally.
• the monoclonal antibodies of the present invention were prepared by developing a hybridoma.
• various human amylases were purified, (as described in Zakowski, Gregory and Bruns, Clinical Chemistry 30:62, 1984.), from saliva, pancreas and serous ovarian cyst fluid. These various human a amylases were then used to immunize A/J male mice, H-2 haplotype. Spleen donor cells were then taken from these mice and fused with SP2/0 myeloma d cells, H-2 haplotype.
• the hybridoma was selected which produced an anti-salivary antibody which reacts also with ovarian tumor amylase and salivary amylase but not with pancreatic amylase in a standard plate-coating assay.
• This monoclonal antibody is of the IgG-2a subclass and was further characterized for its ability to distinguish pancreatic amylase from the other, nonpancreatic, amylases. This antibody is referred to below as the HABB antibody.
• the HABB antibody was evaluated for its ability to specifically remove human salivary type amylase from solution while not affecting human pancreatic amylase. This was determined first by adding various amounts of antibody solution to 0.5 ml aliquots of either the pancreatic or the salivary amylase in pure solution. Following a 60-minute incubation at room temperature, 0.05 ml of a Staph A suspension was used to allow precipitation of the antibody bound amylases. The nonprecipitated amylase was then measured in the supernatant by measuring its enzymatic activity.
• HABB antibody with Staph A, completely precipitated salivary amylase but did not precipitate pancreatic amylase [See Figure 1]. This same effect was obtained using HABB immobilized on other insoluble matrices, e.g. Sepharose.
• HABB salivary amylase was attached to either Staph A or Sepharose. Serum was mixed with either of these materials, and the mixture was centrifuged to remove the antibody and antibody-amylase complexes. The amylase isoenzymes in the resulting supernatant were analyzed by electro- phoresis which showed that only pancreatic amylase remained.
• HABB antibody has been used to study patients with abnormally elevated amounts of amylase in serum in order to determine whether pancreatic amylase was the cause of the increased amylase. For example, one patient with an a ylase-secreting tumor was thought to have pancreatitis because of a high serum amylase. Treatment of this patient's serum removed virtually all of the amylase, leading to the correct diagnosis of nonpancreatic hyperamylasemia, which was found to be caused by a gynecological malignancy.
• Tissue or saliva can be processed and the amylase purified by a combination of standard methods of protein purification combined with affinity chro atography.
• the purified a amylase then, is used to immunize A/J mice, H-2 haplotype.
• the mice are then monitored and reimmunized until the desired immune response is obtained.
• There are a number of ways of monitoring the immune response but, essentially, this amounts to periodic bleedings and serological testing.
• mice Once the mice are felt to have been sufficiently immunized against the human salivary-type amylase, the spleen is then excised.
• the spleen contains
• the polyethylene glycol promotes fusion of cells resulting in a mixture of various fusion products.
• Spleen cell-spleen cell hybrids, myeloma cell-myeloma cell-spleen cell hybrids and myeloma cell-myeloma cell hybrids are obtained.
• the SP2/0 myeloma cell line used does not produce antibodies of its own and has certain biochemical,properties which allow subsequent preferential selection of the desired 1 hybridoma cell line. Because the different fusion products have different characteristics, selective pressure in culture can be effected to isolate the desired hybridoma.
• the spleen cell-spleen cell combination is not viable in vitro and thus readily dies in tissue culture.
• the myeloma cell is not able to metabolize certain precursors into essential nutrients.
• the hybridoma product of the fusion of the myeloma cell with the spleen cell assumes the characteristic of the spleen cell and is capable of synthesizing essential nutrients and the characteristic of the myeloma cell and is capable of essentially immortal growth in culture.
• the desired hybridoma was isolated.
• the isolated hybridoma cells were then screened for those that produce antibody to the human salivary-type amylase. Different screening methods can be used.
• One particularly useful method is the enzyme-linked immunosorbent assay (ELISA assay). This is a standard serological technique using a microtiter plate.
• hybridoma Once the desired hybridoma is isolated from the screening procedure, the cell is then cloned by limiting dilution in tissue culture. Hybridoma cells from this final clone were injected into the peritoneal cavity of CAF male
• an ascitis tumor forms in the peritoneal cavity and the antibody is prepared from the resulting ascitic fluid.
• the antibody purified from the ascitis fluid or from supernatants of tissue culture of the hybridoma cells can be sold as is or as a complex with insoluble matrices or various enzymes, radioisotopes, immunochemical stains, etc. for use in various types of assays,

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• 1985
  • 1985-07-26 EP EP19850904030 patent/EP0232255A4/de not_active Withdrawn
  • 1985-07-26 WO PCT/US1985/001424 patent/WO1987000526A1/en not_active Ceased
  • 1985-07-26 JP JP60503594A patent/JPS63500421A/ja active Pending

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