0000103 - EP78300035A1 - EPO
Application Jun 12, 1978 - Publication Dec 20, 1978
A method is disclosed for the purification of glycoproteins, particularly the beta subunit of human chorionic gonadotrophin, by polyacrylamide gel electrohoresis using the magnesium salt of8-anilino-1- naphthalene-sulfonic acid as a fluorescent probe. Also disclosed is an antiserum com-position produced by using spleen Immunization of glycoprotein antigens.
This invention relates to the purification of glycoproteins and to immunization with glycoproteins.Human chorionic gonadotrophin (hereinafter referred to as hCG) is composed of two subunits; the α subunit is largely identical to the a subunit of TSH, FSH and LH; the B subunit also possesses areas which are homologous with these glycoprotein hormones as well as a 30 amino acid sequence that is not homologous. Many preparations of the β subunit of hCG obtained by chromatography of urea dissociated hCG exhibit microheterogeneity, Donini et al, Acta Endocr., 73: 133-145, 1973, i.e., they contain carbohydrate chains of different lengths and complexity. Besides other glycoprotein hormones or their metabolites, it is also possible that undisassociated hCG and subunit are present to some extent as contaminants in these preparations. These antigenic contaminants will thus also produce antibodies when injected along with the primary antigen in immunization procedures. It is therefore desirable to further purify β-hCG and other glycoproteins prior to antibody production in order to produce a highly specific antiserum with low cross reactivity to interfering substances. Such an antiserum would make possible the design of more sensitive agglutination reactions with antigen sensitized carriers.It was thought that gel electrophoresis would provide a suitable approach to obtain the desired, purified antigen. Such a procedure for the separation of human serum proteins is described by Davis in Ann. N.Y. Ac. Sci., 121:404-427 (1964). But, the staining procedure for localizing the separated protein requires prior fixation of the protein in acid which causes complete denaturation of the protein. Hartman et al in Anal. Biochem., 30: 391-394 (1969) attempted to provide a method of staining the electrophoresed protein with minimal denaturation by utilizing anilinonaphthalene sulfonate to stain the gels once they are removed from their tubes following electrophoresis. It has beenfound, however, that this latter procedure is unsatisfactory with hCG and no staining is observed. The further suggestion by .Harman to utilize HCl to intensify the stain is also counterproductive causing further denaturation of the protein.The present invention, therefore, is directed to provide purified forms of the beta subunit of hCG and other glycoproteins (or subunits or subfragments thereof). Accordingly the present invention provides a method for purifying a glycoprotein antigen or a subunit or subfragment thereof by gel electrophoresis characterised in that the antigen or subunit or subfragment is subjected to polyacrylamide gel electrophoresis in a tube containing an upper gel and a lower gel suspended in an electrophoretic apparatus having upper and lower buffer chambers wherein both the lower gel and the upper chamber buffer contain a fluorescent probe comprising the magnesium salt of 8-anilino-1-naphthalene-sulfonic acid, terminating the electrophoresis and cutting out the fluorescent boundaries corresponding to the antigen or subunit or subfragment.It is to be understood, besides hCG, that other glycoprotein antigens and their subunits or subfragments may be purified by the method of this invention. These glycoproteins, besides hCG, would illustratively include human luteinizing hormone, human follicle stimulating hormone, human thyroid stimulating hormone, human menopausal gonadotrophin, pregnant mare's serum gonadotrophin, and carcino embryonic antigen. However the preferred glycoprotein is the beta subunit of human chorionic gonadotrophin and thus. in a preferred aspect the invention provides a method for purifying the beta subunit of hCG which comprises subjecting the β-hCG subunit to polyacrylamide gel electrophoresis in a tube containing an upper gel and a lower gel suspended in an electrophoretic apparatus having upper and louer buffer chambers wherein both the lower gel and the upper chamber buffer.containa fluorescent probe comprising the magnesium salt of 8-anilino-1-naphthalene-sulfonic acid, terminating the electrophoresis and cutting out the fluorescent boundaries corresponding to the β-hCG subunit located at the most anodic portion of the gel.The present invention also concerns to a method for purifying the beta subunit of human chorionic gonadotrophin which comprises subjecting the β-hCG subunit to polyacrylamide gel electrophoresis in a tube containing an upper gel and a lower gel suspended in an electrophoretic apparatus having an upper tank buffer and a lower tank buffer wherein the upper tank buffer contains a fluorescent probe consisting of the magnesium salt of B-anilino-1-naphthalene-sulfonic acid and a tracking dye, and, after terminating the electrophoretic run, cutting out the fluorescent boundaries corresponding to the β-hCG subunit. The invention also comprises the β-hCG produced by theabove method.Human chorionic gonadotrophin, a glycoprotein hormone may be obtained by extraction from the urine of pregnant women in the first trimester of pregnancy. Follouing a crude purification, the two subunits may be further purified and separated through a combination of ion exchange chromatography and sieve chromatography. In the last steps the alpha subunit is disassociated from the beta subunit in a 10M urea solution. The hCG/urea solution may then be sieve chromatographed twice on a urea impregnated column. The purified subunits may be eluted from the'column, the urea removed and the products lyophilized.The β-hCG obtained from the above described chromatographic procedures may then be purified by polyacrylamide gel electrophoresis according to the invention prior to immunization.Preferably, the lower gel which is the separating gel contains about 5.4% polymerized acrylamide and about 0.5 mg percent of the magnesium salt of 8-anilino-1-naphthalene-sulfonic acid (referred to hereinafter as ASN). It will be understood by those skilled in the art that the amount of free acrylamide and ANS may vary with the individual glycoprotein hormone which is electrophoresed.The subunits isolated from the hormone complex reveal 3 components for hCG-a and 5 components for hCG-β.Besides these glycopeptides it was also found that hCG-β was contaminated by extraneous substances which had the slowest anodic mobility. In addition one cannot exclude the possibility that hCG and its a subunit and other glycoprotein hormones were also present in the hCG-β preparation.In order to circumvent the problem of contamination in hCG-β only material which had an electrophoretic mobility remote from that of other substances was excised from gels and used for immunization.While an antiserum to glycoproteins such as the highly purified β-hCG may be produced by many standard methods of immunization it is preferred according to this invention to produce the antiserum by immunizing the host animal in the spleen. Thus, this invention also includes the method of producing an antiserum to a glycoprotein antigen, such as β-hCG, which comprises immunizing the host animal in the spleen and isolating the antiserum from the host animal. Preferably the antigen utilized for the immunization is the highly purified β-hCG obtained from the polyacrylamide gel electrophesis and the spleen immunization is also followed by subcutaneous injection of the antigen.The most widely used immunization procedures for the induction of antibodies to proteins and other macromolecules employ foot pad-innoculations. This method has a major disadvantage in that the foot pad occasionally becomes infected and necrotic. Furthermore, the disease may become disseminated and prove fatal to the animal and a costly antigen may be lost. This has not been observed in the case of animals immunized via the splenic route.The potential use of spleen immunization followed by subcutaneous injection is reflected in the consistently high antibody titres produced to hCG-β in a short period of time.The antiserums of the present invention are useful immunological reagents. For example, the β-hCG antiserum produced by utilizing the highly purified β-hCG obtained from polyacrylamide gel electrophoresis is highly specific and possesses very low cross reactivity to interfering antigens. Thus, when used as an immunologic reagent preferably in lyophilized form in haemagglutination test method, more reliable results are obtained and more sensitive tests can be designed as described in our co-pending European Application No 78300034.2 filed concurrently herewith under Representative's reference AHP-6522 (corresponding to U.S.Serial Numbar B06563 filed 14th June, 1977).The invention may be further illustrated by reference to the following examples.EXAMPLE 1Stock SolutionsThe following stock solutions uere prepared in distilled deionized water using the following nomenclature: BIS is N,N'-methylene bis acrylamide; TRIS is tris (hydroxymethylene diamine); TEMED is N,N,N',N'-tetra- ethylene diamine.Gel PreparationThe lower gel was prepared by, pouring a fresh solution containing 2.5ml of A, 5ml of C, 2.5ml of distilled deionized water with an equal volume of ammonium persulfate solution (0.14g/100ml) and 0.1ml of ANS (1 mg/ml solution of the Mg salt of 1-anilino-8-naphthalene sulfonic acid) into a gel tube having 0.6cm inner diameter and 9.5cm in length, the bottom end being temporarily sealed. Water was then layered on'top of the solution to eliminate any'meniscus. The gel formed after polymerizing for ½ hour and excess unpolymerized acrylamide on top was removed by washing with a solution containing 1 part B: 2 parts E: 6 parts water, and the bottom seal was then removed.An upper spacer gel was then prepared by layering or top of the lower gel a fresh solution containing 1 ml of B, 2 ml of D, 1 ml of E and 4 ml of F. Water was then layered over the upper gel solution and the gel was then formed by photopolymerization with fluorescent light for hour and removing excess water. The lower gel contains about 5.4% of unpolymerized acrylamide and 0.5 mg percent of ANS and the upper gel contains about 2.5% unpolymerized acrylamide.ElectrophoresisThe gel tubes were marked at a distance of 5.5 cm from the top of the lower gel. Then 200µg of the protein (β-hCG, α-hCG, etc.) was layered on the upper spacer gel, the protein solution contains 2 mg of protein per ml of 0.15 M phosphate buffered saline at pH 7.4 containing 10% dextrose. Tank buffer (0.6g TRIS, 2.88g glycine, 5mg ANS in water q.s. to 1 litre and pH 8.3) was then layered over the sample. The tubes to be electrophoresed were placed in an electrophoretic apparatus having upper and lower chambers for receiving said tank buffer. To 400 ml of tank buffer in the upper chamber was added 1ml of 0.001% Bromophenol Blue as a tracking dye. The cathode was contacted to the top of the tube and the anode to thebottom. Electrophcresis was conducted at 4°C and a current of 2 milliamps per tube was applied till the. tracking dye reached the interface of the two gels and then a current of 3 milliamps per tube until the tracking dye reached the 5.5cm mark as described, a total of about 90 minutes. The tubes were removed from the apparatus and the gels were reamed out of the tubes. The portions of the gel-, which under long wave UV light corresponded for example, to β-hCG were excised immediately in the form of discs or tablets and frozen to avoid possible diffusion of the protein.Analytical StandardFor first establishing the location of the β-hCG after conducting the electrophoresis, samples of alpha and beta hCG were electrophoresed as described. The glycoproteins on the gels were then immediately fixed by staining with Amido Schwartz also known as Buffalo Black (0.2g/100ml of 7% acetic acid), fdr 90 minutes, then destained electrophoretically in 7% acetic acid. It was determined that the portions of β-hCG to be excised were in the far anodic regions of the gel.EXAMPLE 2Immunization ProtocolThe acrylamide tablets from the ANS stained gels, twelve in number, containing approximately a total of 2.4 mg hCG-β were suspended in 4 ml of phosphate buffer 0.15M, pH 7.4 and homogenized for 30 seconds. An equal volume of Freund's adjuvant (complete) was then added and the mixture emulsified. One ml of this emulsion contained approximately 300 micrograms of hCG-β.White male New Zealand rabbits (2.5-3.0 kg) were fasted 16 hours before surgery. The animals were anaesthetized by slow intravenous injection of Nembutal, 60 mg/kg of body weight. Anaesthesia yes further continued by ether inhalation until good muscle relaxation was insured.A left subcostal incision was then made exposing the spleen. The organ was gently grasped with two surgical sterile gauze compresses presoaked in saline at 37°C. The antigen was injected into the spleen using a sterile 1 ml tuberculin syringe with a No. 20 gauge needle. No more than 0.1 ml was injected per location. The total volume injected varied from 0.5-1.0 ml depending on the size of the spleen. The incision was closed using 00 silk sutures. The remaining antigen was injected subcutaneously in preshaven areas around the neck. The animal was then given a one millilitre injection, intraperitoneal with a suitable antibiotic.Thirteen days following primary immunization with hCG-β, the animals were bled via the central ear artery using a No. 20 hypodermic needle and the antibody titre determined by microtitre haemagglutination. Each animal then received multiple subcutaneous injections of a total concentration of 300 µg/ml of hCG-β in Freund's adjuvant. This process of subcutaneous immunization and testing of serum extended over a period of 64 days with the immuno- gen being administered over 10-14 day intervals. Finally, the animals were exsanguinated by cardiac puncture and the antiserum tested for specificity. See more
1. A method for purifying a glycoprotein antigen or a subunit or subfragment thereof by gel electrophoresis characterised in that the antigen or subunit or subfragment is subjected to polyacrylamide gel electrophoresis in a tube containing an upper gel and a lower gel suspended in an electrophpretic apparatus having upper and lower buffer chambers wherein both the lower gel and the upper chamber buffer contain a fluorescent probe comprising the magnesium salt of β-anilino-1-naphthalene-sulfonic acid, terminating the electrophoresis and cutting out the fluorescent boundaries corresponding to the antigen or subunit or subfragment.2. A method as claimed in Claim 1 wherein the glycoprotein antigen is human chorionic gonadotrophin, human luteinizing hormone, human follicle stimulating hormone, human thyroid stimulating hormone, human menopausl gonadotrophin, pregnant mare's serum gonadotrophin or carcino embryonic antigen.3. A method as claimed in Claim 1 for purifying the beta subunit of human chorionic gonadotrophin which comprises subjecting the β-hCG subunit to polyacrylamide gel electrophoresis in a tube containing an.upper gel and a lower gel suspended in an electrophoretic apparatus having upper and lower buffer chambers wherein both the lower gel and the upper chamber buffer contain a fluorescent probe comprising the magnesium salt of 8-anilino-1-naphthalene-sulfonic acid terminating the electrophoresis, and cutting out the fluorescent boundaries corresponding to.the β-hCG subunit located at the most anodic portion of the gel.4. A method as claimed in Claim 3 wherein the louer gel contains about 5.4% polymerized acrylamide.5. A method as claimed in Claim 3 or 4 wherein the concentration of the fluorescent probe in both the lower gel and upper chamber buffer is about 0.5 milligram per cent.6. A method for producing an antiserum of a glycoprotein antigen which comprises immunizing a host animal to the antigen in the spleen and isolating the antiserum from the host animal.7. A method as claimed in Claim 6 in which the antigen is injected subcutaneously after immunizing the host animal in the spleen and before isolating the antiserum.8. A method as claimed in Claim 7 wherein the antigen is the glycoprotein or a subunit or subfragment thereof whenever obtained by the method claimed in Claim 1 or 2.9. A method as claimed in Claim 7 wherein the antigen is the beta subunit of human chorionic gonadotrophin whenever obtained by the method claimed in any one of Claims 3 to 5.10. A method as claimed in any one of Claims 6 to 9 wherein the host animal is a rabbit.See more