Methods and reagents for maintaining the viability of cancer cells in surgically removed tissue
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
A01N-001/02
C12N-005/07
출원번호
US-0211578
(2014-03-14)
등록번호
US-9113623
(2015-08-25)
발명자
/ 주소
Baker, Tony K.
출원인 / 주소
Truckee Applied Genomics, LLC
대리인 / 주소
Wilson Sonsini Goodrich and Rosati
인용정보
피인용 횟수 :
3인용 특허 :
2
초록▼
A composition and method for generating reagents and the composition of these reagents for the stabilization and preservation of viability of cancer tissue which has been surgically excised and the suspension and/or termination of apoptosis (cell death) by significant modulation of cell metabolism b
A composition and method for generating reagents and the composition of these reagents for the stabilization and preservation of viability of cancer tissue which has been surgically excised and the suspension and/or termination of apoptosis (cell death) by significant modulation of cell metabolism by low molar concentrations of synergistic chemistries and hormonal growth enhancers while maintaining normal gene expression patterns of the surgically excised tissue.
대표청구항▼
1. A method of producing a cell viability reagent for a tissue sample, the method comprising: providing at least one chaotrope;providing a first and a second kosmotrope, wherein the first kosmotrope is glycerol and the second kosmotrope is α,α-trehalose;providing a chelator;providing a buffer;provid
1. A method of producing a cell viability reagent for a tissue sample, the method comprising: providing at least one chaotrope;providing a first and a second kosmotrope, wherein the first kosmotrope is glycerol and the second kosmotrope is α,α-trehalose;providing a chelator;providing a buffer;providing an apoptosis reducing substrate, wherein the apoptosis reducing substrate is Leptin;providing a metabolic modulator;mixing the at least one chaotrope, the first and second kosmotrope, the chelator, the buffer, the apoptosis reducing substrate, and the metabolic modulator to produce the cell viability reagent wherein the cell viability reagent is capable of preserving the tissue sample for gene expression analysis,wherein the tissue sample is a surgically excised cancer tissue sample, andwherein a final concentration of the chaotrope is from about 0.1 Molar to about 2 Molar, a final concentration of the first and the second kosmotrope is from about 0.1 Molar to about 2 Molar, a final concentration of the chelator is from about 0.1 Molar to about 2 Molar, and a final concentration of the apoptosis reducing substrate is from about 0.001 Molar to about 0.5 Molar. 2. The method of claim 1, wherein the chaotrope is selected from the group consisting of SCN− (sodium thiocyanate), H2PO4−, HCO3−, I−, Cl−, NO3−, NH4+, guanidinium, and all salts of guanidinium. 3. The method of claim 1, wherein the chelator is selected from the group consisting of EDTA, EGTA, and BAPTA. 4. The method of claim 1, wherein the buffer is selected from the group consisting of BIS-TRIS, BIS-TRIS Propane, HEPES, MES, MOPS, and Sodium Phosphate Buffer. 5. The method of claim 1, wherein the metabolic modulator is selected from the group consisting of polar aprotic solvents, DMSO, Acetone, N,N-Dimethylformamide and Acetonitrile. 6. The method of claim 1, wherein the chaotrope is SCN− (sodium thiocyanate), the first kosmotrope is glycerol and a second kosmotrope is α,α-trehalose, the chelator is EDTA, the buffer is a Sodium Phosphate Buffer, the apoptosis reducing substrate is leptin, and the metabolic modulator is DMSO. 7. The method of claim 1, wherein the final concentration of glycerol is approximately 0.25 Molar, the final concentration of α,α-trehalose is approximately 0.2 Molar, and the final concentration of leptin is approximately 0.001 Molar. 8. A method of manufacturing a cellular viability reagent for analyzing a tissue sample, the method comprising: providing an aliquot of purified water;adding components of the cellular viability reagent to the purified water in the following order:adding sodium thiocyanate, followed by the addition of EDTA, then adding DMSO, followed by adding glycerol, then adding sodium phosphate, followed by the addition of α,α-trehalose, followed by adding leptin; andmixing the components between each addition of components in a manner that produces the cellular viability reagent, wherein the cellular viability reagent maintains the cellular RNA integrity of the tissue sample, which allows for accurate genetic expression analysis of a tissue sample days after being placed in the cellular viability reagent,wherein a final concentration in the cellular viability reagent of glycerol has a range from about 0.1 Molar to about 2 Molar, a final concentration of α,α-trehalose has a range from about 0.1 Molar to about 2 Molar, and a final concentration of leptin has a range from about 0.001 Molar to about 0.5 Molar. 9. A cell viability reagent for a tissue sample to allow genetic expression analysis of the tissue sample, the cell viability reagent comprising: at least one chaotrope;a first and a second kosmotrope;a chelator;a buffer;an apoptosis reducing substrate; anda metabolic modulator,wherein the chaotrope is selected from the group consisting of SCN− (sodium thiocyanate), H2PO4−, HCO3−, I−, Cl−, NO3−, NH4+, K+, guanidinium, and all salts of guanidinium,wherein the first kosmotrope is glycerol and the second kosmotrope is α,α-trehalose,wherein the chelator is selected from the group consisting of EDTA, EGTA, and BAPTA,wherein the buffer is selected from the group consisting of BIS-TRIS, BIS-TRIS Propane, HEPES, MES, MOPS, and Sodium Phosphate Buffer,wherein the metabolic modulator is selected from the group consisting of polar aprotic solvents, DMSO, Acetone, N,N-Dimethylformamide and Acetonitrile,wherein the apoptosis reducing substrate is Leptin, andwherein a final concentration of the chaotrope has a range from about 0.1 Molar to about 2 Molar, a final concentration of the first and the second kosmotrope has a range from about 0.1 Molar to about 2 Molar, a final concentration of the chelator has a range from about 0.1 Molar to about 2 Molar, and a final concentration of the apoptosis reducing substrate has a range from about 0.001 Molar to about 0.5 Molar. 10. The cell viability reagent of claim 9, wherein the chaotrope is SCN− (sodium thiocyanate), the chelator is EDTA, the buffer is Sodium Phosphate Buffer, and the metabolic modulator is DMSO. 11. The reagent of claim 9, wherein the final concentration of glycerol is approximately 0.25 Molar, the final concentration of α,α-trehalose is approximately 0.2 Molar, and the final concentration of leptin is approximately 0.001 Molar.
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이 특허에 인용된 특허 (2)
Tony Baker, Methods and reagents for preservation of DNA in bodily fluids.
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