WO2009139317A1 - 糞便処理方法及び糞便処理容器 - Google Patents
糞便処理方法及び糞便処理容器 Download PDFInfo
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- WO2009139317A1 WO2009139317A1 PCT/JP2009/058622 JP2009058622W WO2009139317A1 WO 2009139317 A1 WO2009139317 A1 WO 2009139317A1 JP 2009058622 W JP2009058622 W JP 2009058622W WO 2009139317 A1 WO2009139317 A1 WO 2009139317A1
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- C—CHEMISTRY; METALLURGY
- C12—BIOCHEMISTRY; BEER; SPIRITS; WINE; VINEGAR; MICROBIOLOGY; ENZYMOLOGY; MUTATION OR GENETIC ENGINEERING
- C12Q—MEASURING OR TESTING PROCESSES INVOLVING ENZYMES, NUCLEIC ACIDS OR MICROORGANISMS; COMPOSITIONS OR TEST PAPERS THEREFOR; PROCESSES OF PREPARING SUCH COMPOSITIONS; CONDITION-RESPONSIVE CONTROL IN MICROBIOLOGICAL OR ENZYMOLOGICAL PROCESSES
- C12Q1/00—Measuring or testing processes involving enzymes, nucleic acids or microorganisms; Compositions therefor; Processes of preparing such compositions
- C12Q1/68—Measuring or testing processes involving enzymes, nucleic acids or microorganisms; Compositions therefor; Processes of preparing such compositions involving nucleic acids
- C12Q1/6806—Preparing nucleic acids for analysis, e.g. for polymerase chain reaction [PCR] assay
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- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61B—DIAGNOSIS; SURGERY; IDENTIFICATION
- A61B10/00—Other methods or instruments for diagnosis, e.g. instruments for taking a cell sample, for biopsy, for vaccination diagnosis; Sex determination; Ovulation-period determination; Throat striking implements
- A61B10/0038—Devices for taking faeces samples; Faecal examination devices
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- C—CHEMISTRY; METALLURGY
- C12—BIOCHEMISTRY; BEER; SPIRITS; WINE; VINEGAR; MICROBIOLOGY; ENZYMOLOGY; MUTATION OR GENETIC ENGINEERING
- C12N—MICROORGANISMS OR ENZYMES; COMPOSITIONS THEREOF; PROPAGATING, PRESERVING, OR MAINTAINING MICROORGANISMS; MUTATION OR GENETIC ENGINEERING; CULTURE MEDIA
- C12N15/00—Mutation or genetic engineering; DNA or RNA concerning genetic engineering, vectors, e.g. plasmids, or their isolation, preparation or purification; Use of hosts therefor
- C12N15/09—Recombinant DNA-technology
- C12N15/10—Processes for the isolation, preparation or purification of DNA or RNA
- C12N15/1003—Extracting or separating nucleic acids from biological samples, e.g. pure separation or isolation methods; Conditions, buffers or apparatuses therefor
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- C—CHEMISTRY; METALLURGY
- C12—BIOCHEMISTRY; BEER; SPIRITS; WINE; VINEGAR; MICROBIOLOGY; ENZYMOLOGY; MUTATION OR GENETIC ENGINEERING
- C12N—MICROORGANISMS OR ENZYMES; COMPOSITIONS THEREOF; PROPAGATING, PRESERVING, OR MAINTAINING MICROORGANISMS; MUTATION OR GENETIC ENGINEERING; CULTURE MEDIA
- C12N15/00—Mutation or genetic engineering; DNA or RNA concerning genetic engineering, vectors, e.g. plasmids, or their isolation, preparation or purification; Use of hosts therefor
- C12N15/09—Recombinant DNA-technology
- C12N15/10—Processes for the isolation, preparation or purification of DNA or RNA
- C12N15/1003—Extracting or separating nucleic acids from biological samples, e.g. pure separation or isolation methods; Conditions, buffers or apparatuses therefor
- C12N15/1006—Extracting or separating nucleic acids from biological samples, e.g. pure separation or isolation methods; Conditions, buffers or apparatuses therefor by means of a solid support carrier, e.g. particles, polymers
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- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61B—DIAGNOSIS; SURGERY; IDENTIFICATION
- A61B10/00—Other methods or instruments for diagnosis, e.g. instruments for taking a cell sample, for biopsy, for vaccination diagnosis; Sex determination; Ovulation-period determination; Throat striking implements
- A61B10/0096—Casings for storing test samples
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y10—TECHNICAL SUBJECTS COVERED BY FORMER USPC
- Y10T—TECHNICAL SUBJECTS COVERED BY FORMER US CLASSIFICATION
- Y10T436/00—Chemistry: analytical and immunological testing
- Y10T436/10—Composition for standardization, calibration, simulation, stabilization, preparation or preservation; processes of use in preparation for chemical testing
- Y10T436/108331—Preservative, buffer, anticoagulant or diluent
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y10—TECHNICAL SUBJECTS COVERED BY FORMER USPC
- Y10T—TECHNICAL SUBJECTS COVERED BY FORMER US CLASSIFICATION
- Y10T436/00—Chemistry: analytical and immunological testing
- Y10T436/25—Chemistry: analytical and immunological testing including sample preparation
- Y10T436/25125—Digestion or removing interfering materials
Definitions
- the present invention relates to a stool processing method and a stool processing container for efficiently recovering nucleic acid from stool.
- This application claims priority on May 12, 2008 based on Japanese Patent Application No. 2008-125143 for which it applied to Japan, and uses the content for it here.
- colorectal cancer has become one of the top cancer mortality rates. This is thought to be caused by the fact that the Japanese diet has become a Western-style carnivorous center. Specifically, about 60,000 people suffer from colorectal cancer every year. The number of deaths by organ is the third largest after gastric cancer and lung cancer, and further increases are expected in the future. On the other hand, unlike other cancers, colorectal cancer can be cured nearly 100% by treating it at the beginning of onset. Therefore, it is extremely meaningful to make colorectal cancer a target for early cancer screening, and research and development of test methods for early detection of colorectal cancer are actively conducted.
- the enema examination is an examination in which barium is injected into the large intestine, adhered to the mucosal surface of the large intestine, irradiated with X-rays, and the surface irregularities are photographed to observe the surface of the large intestine.
- the colonoscopy is an examination in which the inside of the large intestine is directly observed with an endoscope. In particular, colonoscopy has the advantage of high sensitivity and specificity, and the ability to remove polyps and early cancer at the same time.
- the fecal occult blood test is a test for examining the presence of hemoglobin derived from red blood cells contained in feces and is a method for indirectly predicting the presence of colorectal cancer.
- the fecal occult blood test is widely used because stool collection and storage can be performed at room temperature, special storage conditions such as refrigeration and freezing are not required, and it is easily performed in general households. And the operation is very simple.
- the fecal occult blood test has a problem that the sensitivity is as low as about 25% and the probability of overlooking colorectal cancer is high.
- the positive predictive value is low, and the proportion of patients who are actually colorectal cancer patients among fecal occult blood test positive subjects is 10% or less, and includes many false positives. Therefore, development of a new inspection method with higher reliability is strongly desired.
- separating cancer cells from feces By separating cancer cells from feces, it is possible to suppress the effects of proteases derived from bacteria, etc., and degrading enzymes such as DNase and RNase.
- a method of separating cancer cells from stool for example, a method of separating cells from stool, wherein the stool is cooled to a temperature below its freezing point so that the stool remains substantially intact.
- a method of collecting cells while maintaining a temperature below the freezing point is disclosed (for example, see Patent Document 1).
- a method of isolating colon exfoliated cells after dispersing stool in a transport medium having a protease inhibitor, a mucolytic agent, and a bactericidal agent at normal ambient temperature see, for example, Patent Document 2.
- the cell solution preservative comprises a sufficient amount of water to establish mammalian cells; a miscible alcohol; a sufficient amount of anti-aggregation agent to prevent aggregation of the mammalian cells in the solution; And a buffer that keeps the pH of the solution in the range of 4 to 7 during storage.
- a sample processing method using the following storage solution Is mentioned discloses a sample processing method using a universal collection medium containing a buffer component, at least one alcohol component, a fixative component, and an agent that suppresses at least one degradation of the group consisting of RNA, DNA, and protein.
- Patent Document 5 discloses a sample processing method using a non-aqueous solution containing 5 to 20% polyethylene glycol and 80 to 95% methanol.
- Patent Document 6 contains alcohol or ketone to stabilize nucleic acids of bacteria and viruses in the vaginal swab, contains a substance that precipitates or denaturates proteins, and an accelerating substance that promotes injection into cells.
- a sample processing solution is disclosed.
- Patent Document 7 discloses a stool processing container for mixing and suspending a very small amount of collected stool of about 0.03 g in a suspension containing a preservative solution for the purpose of fecal occult blood testing. Has been.
- the sample processing methods using the respective storage solutions described in Patent Documents 3 to 5 described above can stably store cells at room temperature, but this storage solution is free from impurities such as tissues and cells. It is used for isolated cells and is difficult to use directly on biological samples containing a wide variety of substances such as feces.
- the above-mentioned preservation solution is used for colon exfoliated cells isolated from stool, since the amount of exfoliated colon cells in stool is very small, it is not possible to extract a sufficient amount of nucleic acid for analysis from the isolated cells. Difficulty.
- the sample processing solution shown in Patent Document 6 is used mainly for stably storing nucleic acids derived mainly from bacteria in a vaginal swab sample.
- Feces are a state in which a large amount of bacteria, a large amount of digestion residue, and a very small amount of nucleic acid derived from mammalian cells are mixed.
- Patent Document 6 does not describe any sample treatment solution that can stably store nucleic acid derived from mammalian cells, which is much smaller than bacteria.
- the amount of stool that can be processed is as small as about 0.03 g, and the stool processing liquid contained in the container is substantially one kind. is there.
- the suspension efficiency decreases due to the action of the preservation solution in the suspension, and the nucleic acid is recovered. Efficiency also decreases, and nucleic acids cannot be recovered with high accuracy.
- the present invention has been made in view of the above, and an object thereof is to provide a stool processing method and a stool processing container capable of recovering nucleic acids with high accuracy.
- the present invention is a stool processing method for preparing and processing a stool sample for recovering nucleic acid from collected stool, which generates a stool suspension in which the collected stool and suspension are suspended. A turbidity step; and a sample preparation step of preparing the stool sample by mixing the stool suspension and a stool treatment solution for stabilizing the nucleic acid.
- the suspension used in the fecal treatment method according to (1) is water, physiological saline, or a buffer.
- the said stool processing liquid used with the stool processing method as described in said (1) or (2) is a water-soluble organic solvent.
- the water-soluble organic solvent used in the fecal treatment method according to (3) is a water-soluble alcohol and / or ketone.
- the stool sample used in the stool processing method according to (3) or (4) contains 30% or more of the water-soluble organic solvent.
- At least one of the water-soluble alcohols used in the fecal treatment method according to (4) is selected from the group consisting of ethanol, propanol and methanol.
- the said ketones used with the stool processing method as described in said (4) are acetone and / or methyl ethyl ketone.
- the water-soluble organic solvent used in the fecal treatment method according to (3) is an aldehyde.
- the stool sample used in the stool processing method according to (3) or (8) contains 0.01 to 30% of the water-soluble organic solvent.
- the suspension and / or stool treatment liquid used in the stool treatment method according to any one of the above (1) to (9) preferably contains a surfactant.
- the suspension and / or stool treatment liquid used in the stool treatment method according to any one of the above (1) to (10) preferably contains a colorant.
- the water-soluble organic solvent used in the fecal treatment method according to any one of (3) to (9) preferably contains an organic acid.
- the water-soluble organic solvent used in the stool treatment method according to any one of (3) to (9) preferably contains a chelating agent and / or a polycation.
- the present invention is the stool processing container for preparing and processing a stool sample for recovering nucleic acid from the collected stool in the above invention, the suspension holding the suspension for suspending the stool A holding unit; an introduction mechanism that introduces the stool into the suspension holding unit; a treatment liquid holding unit that holds a stool treatment liquid that stabilizes the nucleic acid; and the suspension holding unit and the treatment liquid holding unit And an opening mechanism that opens between the two.
- the opening mechanism provided in the stool processing container according to (14) is provided with a communication hole that communicates the suspension holding part and the treatment liquid holding part; and is provided in the communication hole.
- a sealing portion that seals communication; and the treatment liquid holding portion is an expandable and contractible container, and the sealing portion is released from sealing by increasing the pressure of the treatment liquid by shrinking the treatment liquid holding container.
- the stool treatment liquid is allowed to flow into the suspension side.
- the processing liquid holding part provided in the stool processing container according to (14) or (15) is extendable in the axial direction, and the whole stool processing liquid flows into the suspension holding part side. It is preferable to make it.
- the opening mechanism provided in the stool processing container according to (14) includes a sealing unit that seals between the suspension holding unit and the processing liquid holding unit; It is preferable to include a protrusion that is opened to open a space between the suspension holding unit and the treatment liquid holding unit.
- the opening mechanism provided in the stool processing container according to (14) includes a sealing unit that seals between the suspension holding unit and the processing liquid holding unit; It is preferable to include a protrusion that presses and opens between the suspension holding unit and the treatment liquid holding unit.
- the processing liquid holding part provided in the stool processing container according to (14) is formed inside the suspension holding part, and the suspension holding part and the processing liquid holding part are It is preferably formed of an elastic material, and the treatment liquid holding part is broken by pressing from the outside of the suspension holding part and the treatment liquid holding part, and the fecal treatment liquid is allowed to flow into the suspension side.
- the processing liquid holding part provided in the stool processing container according to (14) is formed inside the suspension holding part, and the suspension holding part and the processing liquid holding part are Further, the tensile strength of a part of the treatment liquid holding unit is lower than the tensile strength of the suspension holding unit, and the suspension is suspended from outside of the suspension holding unit and the treatment liquid holding unit. It is preferable that by bending the liquid holding part and the treatment liquid holding part, a part of the tensile strength of the treatment liquid holding part is broken and the stool treatment liquid is allowed to flow into the suspension side.
- the suspension used in the stool processing container according to (14) is water, physiological saline, or a buffer.
- the stool processing liquid used in the stool processing container according to (14) or (22) is preferably a water-soluble organic solvent.
- the water-soluble organic solvent used in the stool processing container according to (23) is preferably a water-soluble alcohol and / or ketones.
- the stool sample used in the stool processing container according to (23) or (24) preferably contains 30% or more of the water-soluble organic solvent.
- one or more of the water-soluble alcohols used in the stool processing container described in (24) is selected from the group consisting of ethanol, propanol, and methanol.
- ketones used in the stool processing container according to (24) are acetone and / or methyl ethyl ketone.
- the water-soluble organic solvent used in the stool processing container according to (23) is preferably an aldehyde.
- the stool sample used in the stool processing container described in (23) or (28) preferably contains 0.01 to 30% of the water-soluble organic solvent.
- the suspension and / or stool processing liquid used in the stool processing container according to any one of (14) or (22) to (29) may contain a surfactant. preferable.
- the suspension and / or stool processing liquid used in the stool processing container according to any one of (14) or (22) to (30) preferably contains a colorant. .
- the water-soluble organic solvent used in the stool processing container according to any one of (23) to (29) preferably contains an organic acid.
- the water-soluble organic solvent used in the stool processing container according to any one of (23) to (29) preferably contains a chelating agent and / or a polycation.
- the stool is mixed with the suspension and suspended, the stool is mixed with the stool treatment solution, so that the efficiency of nucleic acid recovery and the recovery accuracy are improved by improving the suspension efficiency.
- FIG. 1 is a schematic diagram showing a stool processing container 1 according to a first embodiment.
- 1 is a schematic diagram showing a stool processing container 1 according to a first embodiment. It is the figure which confirmed the RNA (A) collect
- FIG. 5 is a schematic diagram showing a stool processing container 2 according to a second embodiment. It is a schematic diagram which shows the stool processing container 3 which is the modification 1 of the stool processing container 2 concerning Embodiment 2.
- FIG. It is a schematic diagram which shows the stool processing container 4 which is the modification 2 of the stool processing container 2 concerning Embodiment 2.
- FIG. FIG. 6 is a schematic diagram showing a stool processing container 5 according to a third embodiment.
- FIG. 6 is a schematic diagram showing a stool processing container 5 according to a third embodiment. It is a schematic diagram which shows the stool processing container 6 which is a modification of the stool processing container 5 concerning Embodiment 3.
- FIG. It is a schematic diagram which shows the stool processing container 6 which is a modification of the stool processing container 5 concerning Embodiment 3.
- FIG. It is a schematic diagram which shows the stool processing container 7 concerning Embodiment 4.
- FIG. 1 is a schematic diagram showing a schematic configuration of a stool processing container 1 according to a first embodiment of the present invention.
- the stool processing container 1 includes a stool collection jig 100, a suspension holding unit 110, and a processing liquid holding unit 120. These members exist in the stool processing container 1 in a sealed state, and can be detached. Further, the suspension S and the stool processing liquid P constituting the stool sample preparation solution are accommodated in a suspension holding container 111 and a processing liquid holding container 121, respectively.
- the liquid surface height of the suspension S stored in the suspension holding container 111 may be stored higher than the stool sample E collected on the stool collection rod 102. preferable. Moreover, you may install the valve etc. which prevent a liquid leak according to the height of a liquid level.
- a slider 112 is installed in the suspension holding container 111, and when the lid 101 is joined to the suspension holding container 111, the slider 112 scrapes off excess stool adhering to the stool collection rod 102.
- the amount of stool sample E is made constant.
- the lid 101 and the stool collection rod 102 for introducing the stool sample E into the suspension holding container 111 are referred to as an introduction mechanism. After the stool sample E is collected with the stool collection rod 102, the lid 101 and the suspension holding container 111 are joined, and the stool sample E adjusted to a certain amount is mixed with the suspension S and suspended. A suspension is produced.
- the stool suspension suspended in the suspension holding container 111 is mixed with the stool treatment liquid P.
- pressing the lower portion of the processing liquid holding container 121 reduces the volume inside the processing liquid holding container 121 and increases the internal pressure of the processing liquid holding container 121.
- the sealant 131 is released from the sealant support 122 into the suspension holding container 111, and the stool suspension and the stool treatment liquid P are mixed.
- the sealant 131 and the sealant support 122 are an opening mechanism.
- This mixed solution becomes a stool sample for recovering nucleic acid from stool.
- the treatment liquid holding container 121 is preferably formed of a metal foil such as aluminum foil, rubber or plastic as a material.
- the lower part of the processing liquid holding container 121 can be expanded and contracted up to the upper part of the processing liquid holding container 121, and all the fecal processing liquid can flow into the suspension holding container 111. Furthermore, the stool suspension and the stool processing liquid P can be mixed efficiently by repeating the expansion and contraction of the processing liquid holding container 121.
- the suspension S used in the stool treatment method of the present invention is not particularly limited, but includes physiological saline, water, 2-morpholinoethanesulfonic acid (MES) buffer, bis (2-hydroxyethyl) iminotris (hydroxymethyl).
- Methane (Bis-Tris) buffer Tris (hydroxymethyl) aminomethane (Tris) buffer, N- (2-acetamido) iminodiacetic acid (ADA) buffer, Piperazine-N, N′-bis (2-ethane) Sulfonic acid) (PIPES) buffer, 2- [N- (2-acetamido) amino] ethanesulfonic acid (ACES) buffer, 3-morpholino-2-hydroxypropanesulfonic acid (MOPSO) buffer, 2- [N , N-bis (2-hydroxyethyl) amino] ethanesulfonic acid (BES) buffer, 3-morpholinopropanesulfur Acid (MOPS) buffer, 2- ⁇ N- [Tris (hydroxymethyl)
- the fecal treatment solution P contains a water-soluble organic solvent having an action of stabilizing nucleic acid.
- the water-soluble organic solvent contained in the stool treatment liquid P is not particularly limited as long as it is a compound that can exert a nucleic acid stabilization effect, but it is necessary to be careful not to impair the nucleic acid stabilization effect by reacting with the stool suspension. is there.
- Examples of water-soluble organic solvents include alcohols, ketones, and aldehydes.
- ketones include acetone and methyl ethyl ketone
- aldehydes include acetaldehyde (acetylaldehyde), formaldehyde (formalin), glutaraldehyde, paraformaldehyde, glyoxal, and the like.
- the water-soluble organic solvent used in the present invention is preferably a water-soluble alcohol, acetone or methyl ethyl ketone, and more preferably a water-soluble alcohol.
- ethanol, propanol, or methanol is more preferable from the viewpoints of availability, handleability, safety, and the like.
- the propanol may be n-propanol or 2-propanol.
- ethanol is particularly useful in screening tests such as periodic medical checkups because it has the highest safety and can be easily handled at home.
- nucleic acids derived from mammalian cells such as colon exfoliated cells in feces can be efficiently recovered.
- the stool treatment method mixes the collected stool with a stool sample preparation solution containing a water-soluble organic solvent as an active ingredient, and intestinal resident bacteria from the stool sample in which the stool and the stool sample preparation solution are mixed. This is a method of simultaneously recovering a nucleic acid derived from a nucleic acid derived from an organism other than the intestinal resident bacteria.
- the concentration of the water-soluble organic solvent in the stool treatment liquid P is desired to be an effective concentration of the water-soluble organic solvent after being mixed with the stool suspension, the volume and concentration are adjusted so as to obtain an optimum final concentration. Is required to be set arbitrarily.
- the final concentration of the water-soluble organic solvent in the mixed solution after mixing the stool suspension and the stool treatment liquid P is not particularly limited as long as it is a concentration that can exert a nucleic acid stabilizing effect. It can be determined as appropriate in consideration of the type of the above. For example, when a water-soluble alcohol or ketone is used as an active ingredient, the concentration of the water-soluble organic solvent in the mixed solution after the stool suspension and the stool treatment liquid P are mixed is 30% or more. Is preferred.
- the concentration of the water-soluble organic solvent becomes higher, when the stool suspension and the stool treatment liquid P are mixed, the components of the water-soluble organic solvent are rapidly transferred to the mammalian cells in the stool and the resident bacteria in the intestines.
- the nucleic acid can be rapidly stabilized.
- the concentration of the water-soluble alcohol in the stool sample in which the stool suspension and the stool treatment liquid P are mixed is preferably 30% or more, and 50% or more. Is more preferable, 50 to 80% is more preferable, and 60 to 70% is particularly preferable. As the water-soluble organic solvent concentration is higher, a sufficient effect for stabilizing nucleic acid can be obtained by using a small amount of stool sample preparation solution for stool having a high water content.
- the concentration of acetone and methyl ethyl ketone in the stool sample is preferably 30% or more, more preferably 60% or more, and more preferably 80% or more. Further preferred.
- the concentration of these active ingredients in the stool sample is preferably in the range of 0.01 to 30%, 0.03 to The range of 10% is more preferable, and the range of 3 to 5% is more preferable.
- the water-soluble organic solvent used for the stool treatment liquid P may contain only one type of water-soluble organic solvent or a mixed solution of two or more types of water-soluble organic solvents.
- a mixed solution of two or more kinds of alcohols or a mixed solution of alcohol and other kinds of water-soluble organic solvents may be used. Since the nucleic acid recovery efficiency is further improved, a mixed solution of alcohol and acetone is also preferable.
- the stool used in the stool treatment method of the present invention is not particularly limited as long as it is an animal.
- a mammal-derived one is preferable, and a human-derived one is more preferable.
- human feces collected for periodic medical examinations and diagnosis are preferable, but feces such as livestock and wild animals may be used.
- feces such as livestock and wild animals may be used.
- the collected feces are preferably those immediately after excretion, but may be those that have passed time after excretion.
- the amount of stool sample is not particularly limited, but is preferably in the range of 0.05 to 1 g. Furthermore, in order to increase the effect of nucleic acid recovery, the amount of stool sample is particularly preferably in the range of 0.1 to 1 g. If the amount of the stool sample becomes too large, it will take time and effort to collect the stool and the stool collection container will become large, which may reduce the handleability and the like. Conversely, if the amount of stool sample is too small, the number of mammalian cells such as colon exfoliated cells contained in the stool becomes too small, so the required amount of nucleic acid cannot be recovered and the accuracy of the target nucleic acid analysis decreases. There is a risk. In addition, stool is heterogeneous, that is, since various components are present unevenly, it is preferable to collect from a wide range of stool at the time of stool collection in order to avoid the influence of the localization of mammalian cells. .
- the suspension S and the stool treatment liquid P may contain a surfactant.
- the surfactant contained in the stool sample preparation solution is preferably a nonionic surfactant.
- the nonionic surfactant include Tween 80, CHAPS (3- [3-colamidopropyldimethylammonio] -1-propanesulfonate), Triton X-100, Tween 20, and the like.
- the type and concentration of the chaotropic salt and the surfactant are not particularly limited as long as the effect of stabilizing the nucleic acid can be obtained, and should be appropriately determined in consideration of the amount of feces and the subsequent nucleic acid recovery / analysis method. Can do.
- a colorant may be appropriately added to the suspension S and the stool treatment liquid P.
- a colorant used as a food additive is preferable, and blue, green, and the like are preferable. Examples include Fast Green FCF (Green No. 3), Brilliant Blue FCF (Blue No. 1), Indigo Carmine (Blue No. 2), and the like.
- a plurality of colorants may be mixed and added, or may be added alone.
- the suspension S and the stool treatment liquid P may contain an organic acid.
- an organic acid By adding an organic acid, loss due to degradation of nucleic acid contained in feces can be minimized, and the stability of the nucleic acid in the water-soluble organic solvent can be improved.
- the organic acid include linear fatty acid, dicarboxylic acid, amino acid, hydroxy acid, and aromatic or heterocyclic polycarboxylic acid, acetic acid, adipic acid, citric acid, lactic acid and the like.
- linear fatty acids, dicarboxylic acids, hydroxy acids, and the like are preferable, and acetic acid, adipic acid, citric acid, and lactic acid are more preferable.
- adipic acid or citric acid a particularly excellent nucleic acid high storage effect can be obtained.
- acetic acid is preferred because it is widely used and economical in addition to being able to obtain a sufficiently high nucleic acid preservation effect.
- the suspension S and the stool treatment liquid P may contain only one type of organic acid or may contain two or more types of organic acid.
- the amount of the organic acid added to the stool sample preparation solution of the present invention is not particularly limited as long as it is an amount capable of maintaining the stool sample preparation solution acidic. Alternatively, it can be appropriately determined in consideration of the type and concentration of the water-soluble organic solvent in the stool sample preparation solution.
- the suspension S and the fecal treatment solution P may contain a chelating agent and / or a polycation.
- a chelating agent and / or a polycation By adding a chelating agent and / or a polycation, an inhibitor for nucleic acid analysis contained in stool can be removed, and nucleic acid can be recovered from stool with high purity.
- a chelating agent means a ligand and a salt that form a chelate complex. Examples thereof include ethylenediaminetetraacetic acid (EDTA), glycine (Bicine), and ethylene glycol tetraacetic acid (EGTA).
- the stool sample preparation solution of the present invention may contain only one type of chelating agent or two or more types of chelating agents.
- the concentration of the chelating agent to be added is not particularly limited as long as it is a concentration sufficient to remove the inhibitory substance in the stool sample, and can be appropriately determined in consideration of the type of chelating agent and the like.
- each chelating agent is added so that the final concentration in the stool sample preparation solution of the present invention is in the range of 0.1 mM to 1 M.
- the polycation means a polymer compound containing a cationic functional group and having a repeating structure and a salt thereof.
- the cation include an amino group. Specifically, polylysine or polyacrylamide is preferable, and polylysine is more preferable.
- a polymer obtained by polymerizing a polypeptide having a cationic functional group in the side chain such as polylysine represented by the following formula (1), a monomer having a cationic functional group such as polyacrylamide in the side chain, etc. Is mentioned.
- These polypeptides and polymers need only be electrically positive as a whole molecule and do not need to have a cationic functional group in the side chain of all repeating units (amino acids and monomers). It is preferable to have a cationic functional group in the side chain of all repeating units.
- the sample preparation solution of the present invention may contain only one type of polycation or two or more types of polycation.
- the concentration of the polycation added to the suspension S and fecal treatment solution P of the present invention provides an effect of reducing the inhibitory action by the inhibitor contained in the nucleic acid-containing sample (inhibitory action reducing effect).
- the concentration is not particularly limited as long as the concentration is sufficient, taking into account the type of polycation, the type of nucleic acid-containing sample, the pH of the sample preparation solution, the mixing ratio of the sample preparation solution and the nucleic acid-containing sample, etc. Can be determined.
- the polylysine concentration in the sample preparation solution is preferably in the range of 0.01 to 1.0 m% by weight, more preferably in the range of 0.0125 to 0.8 m% by weight. The range of 0.05 to 0.4 m% by weight is more preferable.
- the pH of the suspension S and fecal treatment liquid P of the present invention is acidic. This is because the hydrolysis of the nucleic acid can be more effectively suppressed.
- the pH is preferably in the range of 2 to 6.5, more preferably in the range of 3 to 6, and still more preferably in the range of 4.5 to 5.5.
- the stool and the suspension S are mixed promptly.
- the components of the water-soluble organic solvent can be rapidly infiltrated.
- a nucleic acid stabilization effect can be obtained quickly.
- mixing may be performed using a physical technique.
- the fecal treatment container may be turned upside down and mixed, or may be mixed by applying to a shaker such as a vortex. Moreover, you may mix in presence of the particle for mixing.
- the kind and material of the mixing particles are not particularly limited, and may be particles made of one kind of material or particles made of two or more kinds of materials. Examples of such mixing particles include particles made of glass, ceramics, plastic, latex, metal, and the like. In addition, the mixing particles may be magnetic particles or non-magnetic particles.
- nucleic acids derived from organisms other than intestinal resident bacteria that is, only a small amount is included than nucleic acids derived from intestinal resident bacteria contained in large amounts in a stool sample.
- nucleic acids derived from organisms other than the above-mentioned intestinal resident bacteria include, for example, nucleic acids derived from mammalian cells such as nucleic acids derived from cancer cells, and the causative bacteria of the infectious diseases in the early or late stage of infection such as hepatitis virus. Of nucleic acids. In addition, it may be a nucleic acid derived from a parasite.
- the intestinal resident bacteria are bacterial cells present in a relatively large amount in feces, and usually mean resident bacteria that inhabit the intestines of animals such as humans.
- the intestinal resident bacteria include, for example, obligate anaerobes such as Bacteroides genus, Eubacterium genus, Bifidobacterium genus, Clostridium genus, Escherichia genus, Enterobacter genus, Klebsiella genus, Citrobacter genus Citrobacter genus There are sex bacteria.
- the nucleic acid stabilization effect by the water-soluble organic solvent component is not particularly affected by the temperature conditions as long as a sufficient amount of the water-soluble organic solvent is present. Therefore, according to the stool processing method of the present invention, the loss of nucleic acid in stool can be suppressed even when stool is collected at a temperature at which stool is usually collected, that is, at room temperature.
- the stool sample prepared by the stool processing method of the present invention can stably hold the nucleic acid in the stool sample even when stored or transported at room temperature.
- the stool sample is preferably stored at 50 ° C. or lower. The reason for this is that the concentration of the water-soluble organic solvent in the stool sample may be lower than the concentration sufficient to exert the nucleic acid stabilization effect due to volatilization or the like by storing for a long time under high temperature conditions.
- the stool sample prepared by the stool processing method of the present invention is a nucleic acid present in a relatively small amount in nucleic acid in stool, particularly in stool derived from a mammalian cell or the like, due to dehydration action or protein denaturation action of a water-soluble organic solvent. Can be maintained more stably. For this reason, when a stool sample is prepared by the stool processing method of the present invention, not only a stool sample immediately after preparation, but also a case where nucleic acid analysis is performed using a stool sample after long-term storage or transportation It can be expected to obtain highly reliable analysis results.
- fecal nucleic acids especially mammalian cell-derived nucleic acids
- fecal nucleic acids while minimizing changes over time (relative to time) of molecular profiling of mammalian cells such as colon exfoliated cells contained in feces It can be stored stably for a long time at room temperature.
- the screening test such as screening
- there is a period from the time of stool collection until the time of nucleic acid analysis Even in the case of being away from the analysis site, it is possible to store or transport a stool sample while suppressing degradation of nucleic acids, particularly fragile RNA.
- the stool sample of the present invention can be subjected to various nucleic acid analyzes in the same manner as other biological samples containing nucleic acids.
- it is preferably used for nucleic acid analysis for examining the presence or absence of onset of cancer or infectious disease, which is strongly demanded for early detection.
- it is also preferable to use for the nucleic acid analysis for investigating the presence or absence of onset of inflammatory diseases, such as colitis, enteritis, gastritis, and pancreatitis.
- it may be used for examinations of raised lesions such as polyps and examinations of various diseases of the large intestine, small intestine, stomach, liver, gallbladder, and bile ducts such as gastric ulcers.
- cancer cell-derived nucleic acids that is, nucleic acids in which mutations or the like have occurred from a stool sample
- the presence or absence of cancer such as colorectal cancer or pancreatic cancer
- nucleic acids derived from pathogenic bacteria that cause infections such as nucleic acids derived from viruses or nucleic acids derived from parasites
- the presence or absence of can be examined.
- an infectious disease test can be performed non-invasively and simply by using a stool sample for detection of pathogenic bacteria discharged in stool such as hepatitis A and E viruses.
- pathogenic bacteria other than intestinal resident bacteria such as food poisoning bacteria such as enterohemorrhagic Escherichia coli O-157 and nucleic acids derived from pathogenic bacteria are detected. You can also.
- markers that indicate neoplastic transformation include known cancer markers such as carcinoembryonic antigen (CEA) and sialyl Tn antigen (STN), and mutations such as APC gene, p53 gene, and K-ras gene. There is presence or absence.
- detection of methylation of genes such as p16, hMLHI, MGMT, p14, APC, E-cadherin, ESR1, and SFRP2 is also useful as a diagnostic marker for colorectal diseases (for example, Lind et al., “A CpG island.
- DNA derived from Helicobacter pylori in a stool sample can be used as a marker for gastric cancer (for example, Nilsson et al., Journal et al. Clinical ⁇ Microbiology, 2004, Vol. 42, No. 8, 3781). See page 8).
- a marker indicating inflammatory digestive organ disease for example, there is a nucleic acid derived from the Cox-2 gene.
- this stool sample can be very suitably used for analyzing not only nucleic acids derived from intestinal resident bacteria present in large amounts in the stool, but also nucleic acids derived from mammalian cells present in trace amounts.
- nucleic acids derived from digestive tract cells such as the large intestine, small intestine, and stomach, and it is particularly preferable to analyze nucleic acids derived from colon exfoliated cells.
- the method for recovering nucleic acid from a stool sample is not particularly limited, and any method can be used as long as it is a method usually used for recovering nucleic acid from a sample.
- the fecal sample of the present invention mainly contains nucleic acids derived from organisms other than intestinal resident bacteria such as mammalian cells (hereinafter sometimes referred to as mammalian cells) and nucleic acids derived from resident bacteria in the intestines. It is.
- nucleic acid derived from a mammalian cell or the like and a nucleic acid derived from an intestinal resident cell may be recovered separately, but it is particularly preferable to recover the nucleic acid simultaneously.
- nucleic acids derived from mammalian cells and intestinal resident bacteria By simultaneously collecting nucleic acids derived from mammalian cells and intestinal resident bacteria, nucleic acids derived from intestinal resident bacteria present in large quantities in feces function as carriers, resulting in a small number of mammalian cells, etc.
- the nucleic acid can be recovered more efficiently than when the nucleic acid is recovered after the nucleic acid derived from the stool is previously isolated from stool.
- the nucleic acid collected from the stool sample may be DNA, RNA, or both DNA and RNA.
- the stool sample obtained by the above-described treatment can be subjected to various treatments suitable for use by a known method.
- the protein in a stool sample can be denatured by adding a compound usually used as a protein denaturant such as a chaotropic salt, an organic solvent, or a surfactant to the stool sample.
- a compound usually used as a protein denaturant such as a chaotropic salt, an organic solvent, or a surfactant
- the chaotropic salt and surfactant the same chaotropic salts and surfactants that can be added to the stool sample preparation solution of the present invention can be used, and the organic solvent can be phenol. preferable. Phenol may be neutral or acidic. When acidic phenol is used, RNA can be selectively extracted into the aqueous layer rather than DNA.
- a chaotropic salt, an organic solvent, a surfactant or the like to a stool sample, one type of compound may be added, or two or more types of compounds may be added.
- a large amount of fiber or the like may be removed from the stool sample by removing the stool collection jig 100 and replacing it with a lid with a filter.
- a stool sample may be filtered by installing a filter in the lower part of the processing liquid holding container 121 in advance and removing the sealing material when the sealing material is covered and used.
- the denatured protein may be removed before the nucleic acid is recovered.
- the quality of the recovered nucleic acid can be improved by removing the pre-denatured protein before recovering the nucleic acid.
- the denatured protein can be removed by a known method.
- the denatured protein can be removed by precipitating the denatured protein by centrifugation and collecting only the supernatant.
- centrifugation is performed, and the denatured protein is precipitated and only the supernatant is recovered, so that denaturation is more complete than simple centrifugation. Protein can be removed.
- the nucleic acid after protein denaturation can be collected by a known method such as ethanol precipitation or cesium chloride ultracentrifugation. Moreover, after adsorbing the nucleic acid eluted in the protein denaturation treatment to the inorganic support, the nucleic acid can be recovered by eluting the adsorbed nucleic acid from the inorganic support.
- the inorganic support for adsorbing nucleic acid a known inorganic support capable of adsorbing nucleic acid can be used. Further, the shape of the inorganic support is not particularly limited, and may be in the form of particles or a film.
- the inorganic support examples include silica-containing particles (beads) such as silica gel, siliceous oxide, glass, and diatomaceous earth, and porous membranes such as nylon, polycarbonate, polyacrylate, and nitrocellulose.
- Solvents for eluting adsorbed nucleic acids from inorganic supports are usually used to elute nucleic acids from these known inorganic supports in consideration of the type of nucleic acid to be recovered, the subsequent nucleic acid analysis method, and the like.
- a solvent can be appropriately used.
- purified water is particularly preferable.
- the stool sample is prepared using a solution for preparing a stool sample containing a chaotropic salt or a surfactant sufficient to elute nucleic acid from mammalian cells, etc.
- protein denaturation treatment can be omitted.
- the stool sample is prepared using a solution for preparing a stool sample that does not contain a chaotropic salt or surfactant at a concentration sufficient to elute nucleic acid from mammalian cells, etc., before protein denaturation treatment, It is preferred to recover the solid component from the stool sample.
- the stool sample has a large ratio of the liquid component to the solid component in the stool in order to quickly mix the stool sample E and the stool sample preparation solution. Therefore, by removing the stool sample preparation solution from the stool sample and recovering only solid components including mammalian cells and intestinal bacteria, the scale required for the burden and equipment of the tester in the recovery and analysis of nucleic acids Can be reduced.
- the influence of the water-soluble organic solvent in the step of recovering the nucleic acid from the solid component can be suppressed.
- the solid component is precipitated, and only the solid component can be recovered by removing the supernatant.
- only solid components can be recovered by filter filtration or the like.
- a protein denaturing agent such as chaotropic salt may be directly added to the recovered solid component, but it is preferable to add the protein denaturing agent after suspending it once in an appropriate elution agent.
- a phosphate buffer or a Tris buffer can be used as an elution agent.
- a drug in which DNase is inactivated by high-pressure steam sterilization or the like is preferable, and a drug containing a protease such as proteinase K is more preferable.
- RNA for example, citrate buffer or the like can be used as an elution agent.
- RNA is a substance that is very easily degraded, and thus inhibits RNase such as guanidine thiocyanate and guanidine hydrochloride. It is preferable to use a buffer containing an agent.
- the nucleic acid may not be collected from the stool sample.
- the nucleic acid can be used as it is for nucleic acid analysis after eluting the nucleic acid from a mammalian cell or the like in a stool sample or a resident bacteria in the intestine.
- the nucleic acid derived from the pathogenic bacterium is analyzed, after collecting only the solid component from the stool sample, the proteinase K or the like is added to the solid component.
- An elution agent such as PBS containing the proteolytic enzyme is added and mixed.
- a gene derived from a pathogenic bacterium or the like can be detected.
- a commercially available kit such as a nucleic acid extraction kit or a virus detection kit may be used.
- Nucleic acids recovered from stool samples can be analyzed using known nucleic acid analysis methods.
- the nucleic acid analysis method include a method for quantifying a nucleic acid and a method for detecting a specific base sequence region using PCR or the like.
- cDNA can be synthesized by reverse transcription reaction (RTPCR: Reverse transcriptase-polymerase chain reaction) and then used for analysis in the same manner as DNA.
- RTPCR Reverse transcriptase-polymerase chain reaction
- the presence or absence of cancer can be examined by detecting the presence or absence of a genetic variation such as a base sequence region in which an oncogene is encoded or a base sequence region containing a microsatellite.
- DNA recovered from a stool sample for example, methylation on the DNA or mutations such as base insertion, deletion, substitution, duplication, or inversion can be detected.
- a base insertion, deletion, substitution, duplication, inversion, or splicing variant (isoform) mutation on the RNA can be detected.
- RNA expression level can also be detected.
- a commercially available analysis kit such as a K-ras gene mutation analysis kit or a methylation detection kit may also be used.
- FIG. 3 shows RNA recovered from a stool sample treated with stool sample E using suspension S, and RNA collected from a stool sample treated with stool sample E without using suspension S It is the electrophoresis image which compared these.
- Sample A is a sample obtained by mixing feces and 4 ml of PBS and suspending by shaking for 10 seconds, adding 6 ml of 100% ethanol, shaking for 10 seconds, and then extracting RNA by a known technique.
- Sample B is a sample from which RNA was extracted by a known technique after adding 10 ml of 70% ethanol to feces and shaking for 20 seconds.
- the stool used for both samples was collected from the stool with a stool collection jig in an amount of 1 g within 1 hour from the stool collection.
- the final ethanol concentrations of the prepared samples A and B are equal.
- ISOGEN phenol mixture “ISOGEN” (manufactured by Nippon Gene)
- RNA recovery column of RNeasy midi kit (Qiagen), and RNA recovery is performed according to the protocol attached to the kit.
- RNA recovery column By performing column washing operation and RNA elution operation, RNA derived from samples A and B was recovered.
- RNA60006 Nano assay kit Agilent
- Agilent 2100 bioanalyzer Agilent 2100 bioanalyzer
- the result of comparing the band patterns of samples A and B in FIG. 3 is as follows.
- the band pattern of sample A dark bands were confirmed around 3000 nt represented by arrow L and around 1500 nt represented by arrow M, respectively.
- the band pattern of sample B the band can be slightly confirmed near the arrows L and M.
- the concentration of the RNA of sample A in the vicinity of the arrows L and M is the concentration of the RNA of sample B (that is, the RNA of sample B). (Recovered amount) greatly exceeds.
- an arrow L indicates a band of 23S and an arrow M indicates an RNA band derived from a high-quality bacteria of 16S.
- Increasing the recovery amount of 23S and 16S RNA also leads to improvement in analysis accuracy.
- the amount of recovered RNA is generally higher in sample B. This indicates that the RNA originally appearing in the vicinity of the arrows L and M has been decomposed. This result shows that RNA that has not been decomposed can be recovered with high accuracy by treating the feces with the suspension S before treating the feces with the fecal treatment solution.
- the method of recovering nucleic acid while maintaining a low temperature it is important to set the temperature condition, and in the method of adding a bactericide, etc., the work of separating the exfoliated colon cells from the stool There is a problem that is complicated.
- the method using a preservation solution is effective only for almost isolated cells, and it is difficult to process directly on a biological sample containing various substances such as feces.
- the recovery efficiency is low.
- it can be suspended in the container, but it is necessary to add a processing solution or the like into the suspension S, and thus there is a problem that the efficiency of recovering nucleic acid is lowered.
- the stool processing method and the stool processing container according to the first embodiment are simply collected by collecting stool in a stool collection container containing the stool sample preparation solution of the present invention in advance.
- a fecal sample can be prepared from the nucleic acid and nucleic acid can be recovered with high accuracy. It can be processed at room temperature, and after suspending feces by using a suspension, the nucleic acid in the sample can be stabilized with the fecal treatment solution, and various subsequent processes can be performed. .
- the operability (usage method) of the processing container of the present invention is simple, it can be used at home.
- the suspension and the stool treatment liquid are separately stored in the processing container of the present invention, each solution can be selectively stored, which is useful for performing various processes.
- FIG. 4 is a schematic diagram showing a schematic configuration of the stool processing container 2 according to the second embodiment of the present invention.
- the stool processing container 2 includes a stool collection jig 200, a suspension holding unit 210, and a processing liquid holding unit 220, which are present in the stool processing container 2 in a sealed state and can be detached. It has become. Further, the suspension S and the stool treatment liquid P constituting the solution for preparing the stool sample are accommodated in the suspension holding container 211 and the treatment liquid holding container 221, respectively.
- the stool is collected by the stool collection rod 203 of the stool collection jig 200.
- a piston 202 is fitted inside the stool collection rod, and the amount of stool collection can be made constant (adjustment) by adjusting the piston 202.
- the lid 201 is joined to the suspension holding container 211 and the piston 202 is pushed, whereby the stool sample E is pushed out, mixed with the suspension S, suspended, and suspended. It becomes a turbid liquid.
- the lid 201, the stool collection rod 203, and the piston 202 that introduce the stool sample E into the suspension holding container 211 are collectively referred to as an introduction mechanism.
- the protrusion of the protrusion 212 pierces the sealing film 222 that sealed the treatment liquid holding container 221, and the sealing film 222 is broken. Then, the fecal treatment solution P and the fecal suspension are mixed.
- the protrusion 212 and the sealing film 222 are referred to as an opening mechanism.
- the stool treatment liquid P and the stool suspension can be circulated through the communication holes 213 around the protrusion 212 and can be easily mixed by inverting the stool treatment container 2 up and down.
- the mechanism for taking out the stool sample may be filtered by replacing the lid 201 with a lid having a filter, or a filter may be formed below the processing liquid holding container 221.
- the stool processing container 3 which is the modification 1 of the stool processing container 2 shown in FIG. 4 is demonstrated with reference to FIG.
- the stool processing container 3 includes a stool collection jig 300, a suspension holding unit 310, and a processing liquid holding unit 320, similarly to the stool processing container 2. Further, the stool collection jig 300 is provided with a piston 302.
- the suspension holding container 311 contains the suspension S and the processing liquid holding container 321 contains the stool processing liquid P.
- a member including the lid 301, the stool collection jig 300, and the piston 302 that introduces the stool sample E into the suspension holding container 311 is referred to as an introduction mechanism.
- the spherical sealing agent 331 is held by the sealing agent support 322 so that the stool processing liquid P does not flow into the suspension S.
- the protrusion 312 pushes the spherical sealing agent 331 into the treatment liquid holding container 321, whereby the stool suspension and the stool treatment liquid P flow through and communicate with each other through the communication hole 313.
- a member including the sealant 331, the sealant support 322, and the protrusion 312 is referred to as an opening mechanism.
- the stool processing container 4 which is the modification 2 of the stool processing container 2 is demonstrated with reference to FIG.
- the stool processing container 4 shown in FIG. 6 includes a stool collection jig 400, a suspension holding unit 410, and a processing liquid holding unit 420.
- the suspension holding container 411 holds the suspension S and the processing liquid.
- the stool processing liquid P is accommodated in the container 421.
- the suspension holding unit 410 includes a slider 414 that scrapes off excess stool adhering to the protrusion 412 and the stool collection rod 403, and a sample cutting unit 415 having a net-like filter is formed below the slider 414. ing.
- the stool sample E pushed out from the piston 402 by the sample cutting part 415 is discharged into the suspension S in the form of a thread.
- a member including the lid 401, the stool collection rod 403, the slider 414, the piston 402, and the sample cutting portion 415 that introduces the stool sample E into the suspension holding container 411 is referred to as an introduction mechanism. Thereafter, the stool suspension obtained by releasing the sealant 431 held by the sealant support 422 into the treatment liquid holding container 421 and the stool treatment liquid P communicate with each other. The holes 413 are circulated and mixed.
- a member including the sealant 431, the sealant support portion 422, and the protrusion 412 is referred to as an opening mechanism.
- the pistons 202, 302, and 402 it is possible to cope with changes in the amount of stool collection. Further, the fecal sample E is cut into a thread shape by the cutting unit 415 by pushing out the piston 402, so that even a highly viscous sample can be finely dispersed by suspension, and nucleic acid can be collected with high accuracy. Can do.
- FIG. 7 is a schematic diagram showing a schematic configuration of the stool processing container 5 according to the third embodiment of the present invention.
- the stool processing container 5 shown in FIG. 7 includes a stool collection jig 500, a suspension holding unit 510, and a processing liquid holding container 521, which are present in the stool processing container 5 in a sealed state. Further, the suspension S and the stool processing liquid P constituting the solution for preparing the stool sample are accommodated in the suspension holding container 511 and the processing liquid holding container 521, respectively.
- a processing liquid holding container 521 is accommodated in the suspension holding container 511.
- the suspension holding container 511 and the treatment liquid holding container 521 are made of an elastic material, and the tensile strength of the treatment liquid holding container 521 is lower.
- the stool sample E is collected by the stool collection rod 502, and the suspension holding container 511 and the lid 501 are joined. At the same time, the excess stool adhering to the stool collection rod 502 is scraped off by the slider 512. Thereafter, the suspension S and the stool sample E are mixed and suspended, and the obtained stool suspension is mixed with the stool treatment liquid P.
- the method of mixing the stool processing liquid P is performed by pressing the vicinity of the processing liquid holding container 521 of the suspension holding container 511 to increase the internal pressure of the processing liquid holding container 521.
- the holding container 521 is broken to release the stool treatment liquid P inside the stool suspension. Note that, by providing a difference in tensile strength between the suspension holding container 511 and the processing liquid holding container 521, only the processing liquid holding container 521 is broken by pressing.
- the stool sample obtained by mixing here is used for the collection
- the treatment liquid holding container 521 is preferably formed using a soft resin such as silicon rubber. Moreover, in order to maintain airtightness, the suspension container 511 may be hard to be deformed by pressing by forming a joint portion with the lid 501 with a hard resin. Further, the treatment liquid holding container 521 may be broken by sharpening the tip of the stool collection rod 502.
- the stool processing container 6 shown in FIG. 9 includes a stool collection jig 600, a suspension holding unit 610, and a treatment liquid holding container 621.
- the stool collection jig 600 includes a stool collection rod 602 and a suspension.
- a slider 612 is formed on the holding portion 610.
- the suspension holding container 611 and the treatment liquid holding container 621 are formed of an elastic material or the like.
- the container may be made of a hard resin such as plastic, and a crease may be formed in a part of the container to facilitate breakage.
- the joint portion of the suspension holding container 611 with the lid 601 may be formed of a hard resin.
- the structure is compared with the stool processing containers 1 to 4. It is simpler. Also, compared with the method of mixing the separated stool suspension and the stool treatment liquid P, the stool suspension and the stool treatment liquid P are mixed in order to release the stool treatment liquid P in the stool suspension. Can be shortened.
- a member including the lids 501 and 601, the stool collection rods 502 and 602, and the sliders 512 and 612 for introducing the stool sample E into the suspension holding container 511 is referred to as an introduction mechanism, and holds the processing liquid.
- a member including the containers 521 and 621 is called an opening mechanism.
- FIG. 11 is a schematic diagram showing a schematic configuration of the stool processing container 7 according to the fourth embodiment of the present invention.
- the stool processing container 7 includes a suspension holding unit 700, a connecting unit 710, and a processing liquid holding unit 720, and each is present in the stool processing container 7 in a sealed state. Further, the suspension S and the stool processing liquid P constituting the stool sample preparation solution are accommodated in a suspension holding container 701 and a processing liquid holding container 721, respectively.
- the collected stool sample E is introduced into a suspension holding container 701 in which a suspension S is stored in advance, and the suspension holding container 701, the joining portion 712, and the treatment liquid holding container 721 are respectively connected.
- the processing liquid holding unit 720 and the connecting unit 710 hold a small empty area so that the stool processing liquid P is not released.
- the protrusion of the protrusion 711 pierces the sealing film 722 by pushing the treatment liquid holding container 721, and the sealing film 722. Breaks.
- the fecal treatment liquid P and the fecal suspension are mixed through the communication hole 713.
- a stool sample is prepared by the process mentioned above.
- the member corresponding to the introduction mechanism is not described, but the stool sample E may be introduced into the suspension holding container 701 by the introduction mechanism described in the above-described embodiment even in the conventional method.
- a member including the protrusion 711 and the sealing film 722 is referred to as an opening mechanism.
- the suspension holding container 701 is also provided with a sealing film to seal the suspension S, and the suspension holding container 701 is opened by the protruding portion 711 of the connecting portion 710 during use.
- An improvement in the stability of the solution, such as antioxidation of S, can also be expected.
- the above-described sample preparation process can be performed by inverting the connecting portion 710.
- the sealant released into the suspension S and the stool treatment liquid P works like stirring beads, and each stirring is performed. It can be expected to have an encouraging effect.
- a stool sample is prepared from the stool collected easily by collecting the stool in a stool collection container containing the stool sample preparation solution of the present invention in advance.
- nucleic acid can be collected and processed with high accuracy and stability.
- the operability (usage method) of the processing container of the present invention is simple, it can be used at home.
- the suspension and the stool treatment liquid are separately stored in the processing container of the present invention, each solution can be selectively stored, which is useful for performing various processes.
- Feces disposal container 100 200, 300, 400, 500, 600, 700 Stool collection jig 101, 201, 301, 401, 501, 601, 701 Cover 102, 203, 403, 502, 602 Stool collection rod 110 , 210, 310, 410, 510, 610, 700 Suspension holding part 111, 211, 311, 411, 511, 611, 701 Suspension holding container 112, 414, 512, 612 Slider 120, 220, 320, 420 , 720 Treatment liquid holding part 121, 221, 321, 421, 521, 621, 721 Treatment liquid holding container 122, 322 Sealant support part 131, 331, 431 Sealant 202, 302, 402 Piston 212, 312, 412 , 711 Protrusion part 213,313,413,713 Communication hole 222,722 Sealing film 15 joint samples cutting portion 710 connection portion 712 E fecal samples P feces treatment liquid S suspension
Abstract
Description
本願は、2008年5月12日に、日本に出願された特願2008-125143号に基づき優先権を主張し、その内容をここに援用する。
また、細胞の組織学的及び細胞学的観察に加え、保存後の細胞中のタンパク質や核酸等に対する分子学的解析をも可能とする保存溶液として、例えば以下の保存溶液を用いた試料処理方法が挙げられる。特許文献4では、緩衝成分、少なくとも1つのアルコール成分、固定剤成分、並びにRNA、DNA及びタンパク質からなる群の少なくとも1つの分解を抑制する薬剤を含む普遍的収集培地を用いる試料処理方法が開示され、特許文献5では、5~20%ポリエチレングリコール及び80~95%メタノールを含有した非水溶液を用いる試料処理法が開示されている。
また、特許文献7では、便潜血検査の目的で、0.03g程度の極少量の採取された糞便を、保存液等を含有した懸濁液に混合させて懸濁を行う糞便処理容器が開示されている。
しかしながら、凍結させた糞便は、硬度が高いため粉砕し難く、取り扱いが困難である。また、粉砕時に凍結片が飛び散るため、汚染や感染の危険がある。また、特許文献2に示した殺細菌剤等を添加する糞便処理方法においては、冷却操作を必要とせず、室温で糞便試料の調製や保存が可能であるものの、糞便から大腸剥離細胞を分離する作業は煩雑である。さらに、殺細菌剤等により破壊されたバクテリア由来の核酸分解酵素やタンパク質分解酵素により、大腸剥離細胞及び大腸剥離細胞由来の核酸等が分解されてしまう。その結果、大腸がん検出の精度が低下するおそれがある。その他、細胞を生存させた状態で保存しているために、大腸剥離細胞中の遺伝子発現等の分子学的プロファイリングが培地中の抗生物質等の成分の影響や、時間経過に伴う劣化・分解等により糞便中の細胞が変化してしまうという問題もある。
すなわち、
(1)本発明は、採取した糞便から核酸を回収するための糞便試料を調製処理する糞便処理方法であって、採取した糞便と懸濁液とを懸濁した糞便懸濁液を生成する懸濁ステップと;前記糞便懸濁液と前記核酸を安定化させる糞便処理液とを混合させて前記糞便試料を調製する試料調製ステップと;を含む。
図1は、本発明の実施の形態1にかかる糞便処理容器1の概要構成を示す模式図である。この糞便処理容器1は、採便治具100と、懸濁液保持部110と、処理液保持部120とを備える。これらの部材は、それぞれが密閉された状態で糞便処理容器1中に存在し、それぞれ脱着可能となっている。また、糞便試料調製用溶液を構成する懸濁液Sと糞便処理液Pとが、それぞれ懸濁液保持容器111と処理液保持容器121とに収容されている。
なお、筆者らの検討で、糞便中の大腸剥離細胞等の哺乳細胞由来の核酸等を効率よく回収できることが見出されている。その糞便処理方法は、採取された糞便を、水溶性有機溶媒を有効成分とする糞便試料調製用溶液に混合させ、糞便と糞便試料調整用溶液とを混合した糞便試料中から腸内常在菌由来の核酸と、腸内常在菌以外の生物由来の核酸とを同時に回収する方法である。
特に、直鎖脂肪酸、ジカルボン酸、ヒドロキシ酸等が好ましく、酢酸、アジピン酸、クエン酸、乳酸がより好ましい。アジピン酸やクエン酸を用いることにより、特に優れた核酸高保存効果を得ることができる。その他、酢酸は、充分な核酸高保存効果を得ることができることに加えて、汎用されており、かつ経済的であることから好ましい。
添加されるキレート剤の濃度は、糞便試料中の阻害物質を除去するために十分な濃度であれば、特に限定されなく、キレート剤の種類等を考慮して適宜決定することができる。好ましくは、本発明の糞便試料調製用溶液における最終濃度が0.1mM~1Mの範囲となるように、各キレート剤を添加する。
図4は、本発明の実施の形態2にかかる糞便処理容器2の概要構成を示す模式図である。この糞便処理容器2は、採便治具200と、懸濁液保持部210と、処理液保持部220とを備え、それぞれが密閉された状態で糞便処理容器2中に存在し、それぞれ脱着可能となっている。また、糞便試料調製用の溶液を構成する懸濁液Sと糞便処理液Pとが、それぞれ懸濁液保持容器211と処理液保持容器221とに収容されている。
その後、突起部412が、封止剤支承部422に保持されている封止剤431を処理液保持容器421内に放出することで得られた糞便懸濁液と糞便処理液Pとが互いに連通孔413を流通して混合する。尚、本実施形態では、封止剤431、封止剤支承部422と突起部412とを含む部材を開放機構と呼ぶ。
図7は、本発明の実施の形態3にかかる糞便処理容器5の概要構成を示す模式図である。図7に示す糞便処理容器5は、採便治具500と、懸濁液保持部510と、処理液保持容器521とを備え、それぞれが密閉された状態で糞便処理容器5内に存在する。また、糞便試料調製用の溶液を構成する懸濁液Sと糞便処理液Pとが、それぞれ懸濁液保持容器511と処理液保持容器521とに収容されている。
なお、懸濁液保持容器511と処理液保持容器521とに抗張力の差異を設けることで、押圧によって処理液保持容器521のみが破断される。ここで混合されて得られた糞便試料が核酸の回収に用いられる。
図11は、本発明の実施の形態4にかかる糞便処理容器7の概要構成を示す模式図である。この糞便処理容器7は、懸濁液保持部700と、連結部710と、処理液保持部720とを備え、それぞれが密閉された状態で糞便処理容器7内に存在する。また、糞便試料調製用溶液を構成する懸濁液Sと糞便処理液Pとが、それぞれ懸濁液保持容器701と処理液保持容器721とに収容されている。
なお、本実施形態では導入機構に該当する部材の説明はないが、従来の方法でも、上述した実施形態に記載の導入機構により糞便サンプルEを懸濁液保持容器701内に導入しても良い。また、本実施形態では突起部711、封止膜722とを含む部材を開放機構と呼ぶ。
100,200,300,400,500,600,700 採便治具
101,201,301,401,501,601,701 蓋
102,203,403,502,602 採便棒
110,210,310,410,510,610,700 懸濁液保持部
111,211,311,411,511,611,701 懸濁液保持容器
112,414,512,612 スライダ
120,220,320,420,720 処理液保持部
121,221,321,421,521,621,721 処理液保持容器
122,322 封止剤支承部
131,331,431 封止剤
202,302,402 ピストン
212,312,412,711 突起部
213,313,413,713 連通孔
222,722 封止膜
415 サンプル裁断部
710 連結部
712 接合部
E 糞便サンプル
P 糞便処理液
S 懸濁液
Claims (33)
- 採取した糞便から核酸を回収するための糞便試料を調製処理する糞便処理方法において、
採取した糞便と懸濁液とを懸濁した糞便懸濁液を生成する懸濁ステップと、
前記糞便懸濁液と前記核酸を安定化させる糞便処理液とを混合させて前記糞便試料を調製する試料調製ステップと、
を含む糞便処理方法。 - 前記懸濁液は、水、生理食塩水または、緩衝剤である請求項1に記載の糞便処理方法。
- 前記糞便処理液は、水溶性有機溶媒である請求項1または2に記載の糞便処理方法。
- 前記水溶性有機溶媒は、水溶性アルコール及び/又はケトン類である請求項3に記載の糞便処理方法。
- 前記糞便試料は、前記水溶性有機溶媒を30%以上含有する請求項3または4に記載の糞便処理方法。
- 前記水溶性アルコールは、エタノール、プロパノール及びメタノールからなる群から1つ以上選定される請求項4に記載の糞便処理方法。
- 前記ケトン類は、アセトン及び/又はメチルエチルケトンである請求項4に記載の糞便処理方法。
- 前記水溶性有機溶媒は、アルデヒド類である請求項3に記載の糞便処理方法。
- 前記糞便試料は、前記水溶性有機溶媒を0.01~30%含有する請求項3または8に記載の糞便処理方法。
- 前記懸濁液及び/又は糞便処理液は、界面活性剤を含有する請求項1~9のいずれか一つに記載の糞便処理方法。
- 前記懸濁液及び/又は糞便処理液は、着色剤を含有する請求項1~10のいずれか一つに記載の糞便処理方法。
- 前記水溶性有機溶媒は、有機酸を含有する請求項3~9のいずれか一つに記載の糞便処理方法。
- 前記水溶性有機溶媒は、キレート剤、及び/又はポリカチオンを含む請求項3~9のいずれか一つに記載の糞便処理方法。
- 採取した糞便から核酸を回収するための糞便試料を調製処理する糞便処理容器において、
前記糞便を懸濁する懸濁液を保持する懸濁液保持部と、
前記懸濁液保持部に前記糞便を導入する導入機構と、
前記核酸を安定化させる糞便処理液を保持する処理液保持部と、
前記懸濁液保持部と前記処理液保持部との間を開放する開放機構と、
を備える糞便処理容器。 - 前記開放機構は、前記懸濁液保持部と前記処理液保持部とを連通する連通孔と、
前記連通孔内に設けられて連通を封止する封止部と、を備え、
前記処理液保持部は伸縮自在な容器であり、該処理液保持容器を縮めることによる処理液の圧力増大によって封止部の封止を解除して、前記糞便処理液を前記懸濁液側に流入させる請求項14に記載の糞便処理容器。 - 前記処理液保持部は、軸線方向に伸縮自在であり、全糞便処理液を前記懸濁液保持部側に流入させる請求項14または15に記載の糞便処理容器。
- 前記開放機構は、前記懸濁液保持部と前記処理液保持部との間を封止する封止部と、
前記封止部を穿って前記懸濁液保持部と前記処理液保持部との間を開放する突起部と、
を備える請求項14に記載の糞便処理容器。 - 前記開放機構は、前記懸濁液保持部と前記処理液保持部との間を封止する封止部と、
前記封止部を押圧して前記懸濁液保持部と前記処理液保持部との間を開放する突起部と、
を備える請求項14に記載の糞便処理容器。 - 前記処理液保持部は、前記懸濁液保持部内部に形成されるとともに、その懸濁液保持部およびその処理液保持部は弾性材で形成され、
前記懸濁液保持部および前記処理液保持部の外部からの押圧によって前記処理液保持部を破断し、
前記糞便処理液を前記懸濁液側に流入させる請求項14に記載の糞便処理容器。 - 前記処理液保持部は、前記懸濁液保持部の内部に形成されるとともに、その懸濁液保持部およびその処理液保持部は弾性材で形成され、さらに、前記処理液保持部の一部の抗張力が前記懸濁液保持部の抗張力に対して低く、前記懸濁液保持部および前記処理液保持部の外部からその懸濁液保持部およびその処理液保持部を折り曲げることによって、その処理液保持部の抗張力の低い一部が破断して、前記糞便処理液を前記懸濁液側に流入させる請求項14に記載の糞便処理容器。
- 少なくとも前記懸濁保持部と前記処理液保持部とは別体であり、その懸濁液保持部とその処理液保持部とは互いに装着可能である請求項14に記載の糞便処理容器。
- 前記懸濁液は、水、生理食塩水または、緩衝剤である請求項14に記載の糞便処理容器。
- 前記糞便処理液は、水溶性有機溶媒である請求項14または22に記載の糞便処理容器。
- 前記水溶性有機溶媒は、水溶性アルコール及び/又はケトン類である請求項23に記載の糞便処理容器。
- 前記糞便試料は、前記水溶性有機溶媒を30%以上含有する請求項23または24に記載の糞便処理容器。
- 前記水溶性アルコールは、エタノール、プロパノール及びメタノールからなる群から1つ以上選定される請求項24に記載の糞便処理容器。
- 前記ケトン類は、アセトン及び/又はメチルエチルケトンである請求項24に記載の糞便処理容器。
- 前記水溶性有機溶媒は、アルデヒド類である請求項23に記載の糞便処理容器。
- 前記糞便試料は、前記水溶性有機溶媒を0.01~30%含有する請求項25または28に記載の糞便処理容器。
- 前記懸濁液及び/又は糞便処理液は、界面活性剤を含有する請求項14または22~29のいずれか一つに記載の糞便処理容器。
- 前記懸濁液及び/又は糞便処理液は、着色剤を含有する請求項14または22~30のいずれか一つに記載の糞便処理容器。
- 前記水溶性有機溶媒は、有機酸を含有する請求項21~29のいずれか一つに記載の糞便処理容器。
- 前記水溶性有機溶媒は、キレート剤、及び/又はポリカチオンを含む請求項21~29のいずれか一つに記載の糞便処理容器。
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US11446011B2 (en) | 2016-04-13 | 2022-09-20 | Nextgen Jane, Inc. | Sample collection and preservation devices, systems and methods |
US11864740B2 (en) | 2016-04-13 | 2024-01-09 | Nextgen Jane, Inc. | Sample collection and preservation devices, systems and methods |
JP2021501900A (ja) * | 2017-10-24 | 2021-01-21 | バイオニア コーポレーション | バイオ試料採取装置 |
JP7024101B2 (ja) | 2017-10-24 | 2022-02-22 | バイオニア コーポレーション | バイオ試料採取装置 |
US11543330B2 (en) | 2017-10-24 | 2023-01-03 | Bioneer Corporation | Bio sample collection device |
Also Published As
Publication number | Publication date |
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US8597954B2 (en) | 2013-12-03 |
EP2287331A1 (en) | 2011-02-23 |
JP5616786B2 (ja) | 2014-10-29 |
US20110060137A1 (en) | 2011-03-10 |
JPWO2009139317A1 (ja) | 2011-09-22 |
CN102027132A (zh) | 2011-04-20 |
EP2287331A4 (en) | 2012-01-25 |
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