JPH02111729A - Activation of interferon - Google Patents

Abstract

PURPOSE:To simply activate interferon deactivated in extraction process, purification process, preservation process, etc., without using a protein modifier such as chaotropic salt by dissolving interferon in an aqueous solution containing a surfactant. CONSTITUTION:Interferon is dissolved in an aqueous solution containing 0.5-2%, preferably 0.7-1.5% surfactant, preferably ionic surfactant, especially sulfonate containing >=12C alkyl chain such as sodium dodecyl sulfate or lithium dodecyl sulfate at pH 2-11 (when interferon is alpha or beta type, pH is preferably 2-8 and when interferon is gamma type, pH is preferably 4-8) so that interferon having activity deactivated to <=30%, preferably <=20% in the above-mentioned processes, especially interferon beta, can be almost completely recovered by a simple means irrespective of natural type or gene recombination type of interferon.

Description

DETAILED DESCRIPTION OF THE INVENTION [Industrial Field of Application] The present invention relates to an improved method for activating interferon.

[Prior art] As a method for activating inactivated interferon,
Conventionally, the following method is known.

(1) A method of completely denaturing some enzymes with a protein denaturant such as guanidine hydrochloride or urea, and then restoring their activity by lowering the concentration of the protein denaturant through dilution or dialysis. Separate Volume Vol. 1.27. No. 6゜ [What is a Protein? Jl), 915, Kyoritsu Shuppan, 1982).

(2) Human leukocyte interferon and human fibroblast interferon were heat-inactivated at 100°C for 2.5 minutes, and then treated with 1% sodium dodecyl sulfate (SDS).
% 2-mercaptoethanol (2ME) and 5M urea and then diluted to recover the activity (W, E
, Stewart II et al., J. gen.

Virol, 26.327.1975).

(3) Human leukocyte interferon and human fibroblast interferon were heat inactivated at 100°C for 2.5 minutes, and then denatured with 1.5 M guanidine thiocyanate.
Method of reactivation by dialysis (R, J, Jariwa
lla et al., Experimentia, 3B, 13
90°1980).

(4) Treating interferon with a protein denaturant,
1. A method for activating interferon, which comprises diluting with a buffer containing a mineral salt, adsorbing it onto an inorganic adsorbent, and then eluting it with an eluent (Japanese Patent Laid-Open No. 6O-258129).

etc. have been reported as methods for activating interferon. What these methods have in common is that inactive or inactivated interferon is denatured with a protein denaturant such as a chaotropic salt such as guanidine hydrochloride or urea, and then the concentration of the protein denaturant is reduced by dilution or The point is that it is lowered by dialysis and reactivated by interferon.

In addition, the effect of surfactants on human fibroblast interferon was reported by Sed+++ak et al. (Adv, Exp
.

Med, Biol, vol. 110. ”Hum
An Interferon” (W.

R, Stinebrlng and P, J, Ch.
apple, eds,), pp.

133-152. Plenum Press, Ne
(York, 1978), but they investigated the effect on stabilization of interferon, and no findings analogous to the activation of interferon were found.

Furthermore, Pr1esen et al. (Arch, Biochem
, Biopys.

206, 432.1981), human fibroblast inkferon inactivated during storage was incubated with 0.1% Triton
-100, but it was found that organic salts, ~12.5% 2-propanol, and ~3.5% n-butanol coexisted, and that after dilution with water, it was further activated. ．．
The effect of the surfactant alone is not sufficient to suggest activation of interferon, such as the fact that almost no activation occurred when diluted with 1% SDS. Further, the concentration of the surfactant was also 0.1%, which is not a concentration sufficient for practical activation of interferon.

[Problems to be solved by the invention] In reactivation after denaturation using a protein denaturant that has been used in conventional technology, it is not always easy to set conditions for reactivation by lowering the concentration of the protein denaturant. Without,
That is, delicate settings such as pH, salt composition, temperature, and treatment time of the solution used for dilution and dialysis affect the reactivation rate. Furthermore, if a protein with cysteine residues is denatured under reducing conditions in the presence of dithiothreitol or 2-mercaptoethanol, there is a risk that erroneous disphite bonds may occur upon reactivation of the protein. There is also gender. From this point of view, the invention of a simple reactivation method that does not use proteins, denaturants, or reducing agents is expected.

The present invention aims to solve the above problems by dissolving deactivated interferon in a solution containing a surfactant.

[Means for Solving the Problems] The above objects are achieved by the following present invention. That is,
The present invention is a method for activating interferon, which is characterized by dissolving interferon in a solution containing a surfactant. The present inventors completed the present invention as a result of intensive research into a method for activating interferon.

The interferon used in the present invention is not particularly limited to animal tanks and methods for producing the same, and can also be used in α.

Although it can be applied to either β or γ interferon, the method of the present invention is effective for interferon, particularly human interferon β.

Furthermore, the method of the present invention is effective in reactivating interferon whose activity has been deactivated to 30% or less, particularly interferon whose activity has been deactivated to 20% or less. For example, human interferon β that does not contain any impurities is said to be active if its specific activity is 1 to 5×8 IU/mg, but even if the specific activity is 30% or less, the method of the present invention can It is possible to recover the activity.

Deactivated interferon is reactivated by dissolving it in a solution containing a surfactant.

The surfactant used may be either an ionic surfactant or a nonionic surfactant, but an ionic surfactant is more preferred.

For ionic surfactants, sulfonates having an alkyl chain with 12 or more carbon atoms are preferred, specifically sodium dodecyl sulfate (SDS) or lithium dodecyl sulfate (LDS), and for nonionic surfactants, alkyl ethers are preferred. or sorbitans, specifically No. 1
det P-40, Triton X-100, T
Ween2Q etc. are preferable.

The concentration of the surfactant is practically used at a concentration of 0.5 to 2%, which is a concentration that sufficiently causes activation and does not cause strong denaturation of protein molecules, and is 0.7 to 1.5%.
% is preferably used.

If it is less than 0.1%, sufficient activation will not be achieved.

In addition, the pH of the solution containing a surfactant is pH 2 to 11, pH 2 to 8 for interferon α and interferon β, and pH 2 to 8 for interferon γ.
4 to 8 are preferably used.

Activation of interferon becomes possible by dissolving interferon in a solution containing a surfactant prepared in this way.

In the present invention, interferon activated by surfactant treatment is usually treated with a surfactant by chromatography using a column with ion exchange groups, hydrophobic groups, alkyl groups, antibodies, dyes, metals, etc. as ligands. and interferon molecules can be separated. Among these, reversed-phase high performance liquid chromatography (HPLC) using an alkyl group as a ligand is effective, and efficient separation can be achieved by adsorption to silica gel into which alkyl chains such as cyanopropyl, C4, C8, and C10 are introduced. It becomes possible.

[Implementation example] Further explanation will be given below with reference to Examples.

Example 1 Human interferon β produced from human fibroblasts and further purified and containing no impurities is dissolved in 10 mM hydrochloric acid (pH 2) containing 0.15 M sodium chloride and stored at 37°C. interferon activity decreased to less than 5%.

0.1 ml of this inactivated interferon β was added to 10 mM hydrochloric acid (pH 2) containing various surfactants at a concentration of 1%.
, at room temperature, and after standing for 30 minutes, interferon activity was measured. As shown in Table 1, interferon activation was observed.

To separate surfactant and interferon, activated interferon (15μg/ml, 10ml
) to 5enshu Pak VP-318~125
1 column (4.6 x 250 mm, 300 people, Senshu Kagaku), and 0.1% trifluoroacetic acid (pH
2) Elution was carried out by an acetonitrile concentration gradient in the presence of Activated interferon was recovered with a yield of 90%.

Table 1 Activation of interferon by surfactant treatment When the interferon activity was measured after adding the mixture to 9 ml at room temperature and leaving it for 30 minutes, no recovery of the activity was observed.

[Effects of the Invention] Interferon is significantly activated by the method of the present invention, and the activity of deactivated interferon is almost completely restored. As a result, this study provides a simple method that does not use protein denaturants such as chaotropic salts to treat interferons that have been deactivated during conventional extraction, purification, and storage processes, regardless of whether they are natural or recombinant interferons. The invention becomes an extremely useful method for activating interferon.

Patent Applicant: Toshi Co., Ltd. Comparative Example 1 0.1 ml of the human interferon β with reduced activity used in Example 1 was added to IM or 10 mM hydrochloric acid (pH 2) containing 2M guanidine hydrochloride (O).

Claims (1)

[Claims] (1) An interferon activation method characterized by dissolving interferon in an aqueous solution consisting essentially of a surfactant.