Sorbent method for removal of cryoprotectants from...

Chemistry: molecular biology and microbiology – Maintaining blood or sperm in a physiologically active state...

Reexamination Certificate

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C435S325000

Reexamination Certificate

active

06235463

ABSTRACT:

FIELD OF INVENTION
The present invention relates to a method of removing chemical compounds used to protect cells (cryoprotectants) during low temperature preservation (cryopreservation). More particularly, this invention is directed to the use of non-toxic solid sorbents to irreversibly bind cryoprotectant compounds in cryopreserved cell suspension to remove/extract them from the suspension medium. During the cryoprotectant binding process and the concomitant reduction of cryoprotectant concentration in the cell suspension medium, intracellular cryoprotectant is osmotically drawn out of the cells and into the medium for binding to the solid sorbent.
BACKGROUND OF INVENTION
Fresh biological cells such as sperm, red blood cells, platelets and the like, are typically viable for but a short period of time in vitro. Nevertheless, it is commercially and medically significant that such cells are available for use long after they have been collected from donors, sometimes several months or even years later. Various cryopreservation methods have been developed to preserve biological cells for these relatively longer periods of time. For example, cryopreservation of sperm cells permits a domestic animal breeder to maintain stocks of valuable sperm cells for use when necessary; it enables the inexpensive transport of such stocks; and it ultimately permits genetically superior males to inseminate a larger number of females. Beyond livestock, artificial insemination is also used in human clinical medicine. As another example, cryopreservation of blood permits donated blood to be stored much longer that the typical 14 day storage period. Moreover, diseases carried in blood with a latency period longer than 14 days may not be discovered in the donor until the blood has been placed into a patient. Cryopreserved blood can be stored for a time sufficient to allow donors to be screened well beyond their date of donation.
The survivability of viable cells and tissues using prior art freezing methods is often quite low. Freezing conditions are relatively harsh and thermal shock or other phenomena such as ice crystal formation often destroy biological cells and tissues. Therefore, maximizing the viability of thawed cells and tissues has been the goal of many researchers.
The prior art discloses various methods for improving the survivability of frozen cells and tissues. In many cases, the cells are removed from their physiological milieu and suspended into artificial tissue culture media prior to preservation. U.S. Pat. No. 4,007,087 to Ericsson discloses a sperm fractionation and storage method which claims to increase the percentage of motile sperm that survive frozen storage. Ericsson discloses a method whereby motile sperm are separated from non-motile, defective or dead sperm. The fraction containing the motile sperm is then frozen. Ericsson reports this method increases the fertility of a sperm sample by enhancing the environmental (the ratio of total sperm to motile sperm) and the viability (progressiveness of motility of the motile sperm) factors affecting the fertility of a sample, but his method does not improve the population (motile sperm count) factor which is possibly most critical.
U.S. Pat No. 3,791,384 to Richter et al. discloses a method for deep freezing and thawing boar sperm which includes inactivating the fresh sperm by means of an inactivating solution that includes dextrose, dihydrate of ethylenedinitrotetraacetic acid, sodium hydrogencarbonate. Reichter reports that inactivation of the sperm gives them a greater power of resistance to freezing.
U.S. Pat No. 4,429,542 to Sakao et al., U.S. Pat. No. 4,487,033 to Sakao et al., U.S. Pat. No. 3,893,308 to Barkay at al., and U.S. Pat. No. 4,480,682 to Kameta et al., all disclose different freezing methods which claim to improve the fertility of sperm samples. In all of these methods, the temperature of sperm in solution is lowered by various means which attempt to reduce the thermal shock and increase the survivability of the viable sperm. Most of these methods are, however, complex, cumbersome and expensive to utilize. Other freezing methods are also used including the method of rapidly freezing in liquid nitrogen vapors (Sherman J K, Improved Methods of Preservation of Humans Spermatozoa by Freezing and Freeze Drying, Fert. Steril. 14: 49-64, 1963), and the method of gradual freezing (Behrman et al., Heterologous and Homologous Insemination with Human Semen Frozen and Stored in a Liquid Nitrogen Refrigerator, Fert. Steril., 17: 457-466, 1966).
A disadvantage of the aforementioned methods resides in that low temperature preservation of the cells and tissues is accomplished by the ice crystallization process. As ice forms in the solution surrounding the cells or tissues, electrolytes and other solutes become progressively concentrated, quickly reaching concentrations which are damaging to the cells. This solute damage is attenuated by the addition of cryoprotectant chemicals such as glycerol, propylene glycol, ethylene glycol or dimethylsulfoxide. However, the cryoprotectants themselves can cause osmotic damage to the cell during their addition and removal. During cryoprotectant addition the cells and tissues undergo shrinkage and during removal they undergo swelling. The cryoprotectant removal process and associated cell swelling is particularly damaging. It is also the final step in the series of steps involved in the cryopreservation process and the one most often carried out in a clinical setting (e.g., operating room or emergency room). Therefore the process used for cryoprotectant removal must: (1) provide relatively rapid removal of the cryoprotectant, (2) provide a “closed” system to avoid potential contamination of the preparation, (3) be relatively simple to conduct and (4) require minimal specialized laboratory equipment. The present invention addresses each of these needs.
SUMMARY OF INVENTION
The present invention relates to a method of removing chemical compounds which protect cells (cryoprotectants) during low temperature preservation (cryopreservation). Typically such cryoprotectants are low molecular weight molecules such as glycerol, propylene glycol, ethylene glycol or dimethyl sulfoxide (DMSO). More particularly, this invention is directed to the use of solid phase non-toxic sorbents/adsorbent compositions (e.g., activated charcoal, synthetic resins, zeolites and hydroxyapatite) alone or in combination to irreversibly bind the cryoprotectant and thereby remove it from the extracellular medium. Therefore, when applied to the cell suspension, the sorbent activity will remove the cryoprotectants outside the cells and thereby shift the chemical potential of the cryoprotectant inside and outside the cells resulting in osmotic flow of the cryoprotectant out of the cells and into the cell medium for binding to the sorbent material.
The present method differs fundamentally from all previous methods in that it (1) utilizes a solid sorbent composition to remove the cryoprotectant from a cryopreserved cell suspension (and the cells) and (2) reduces the potential of osmotic damage (cell swelling) since the cryoprotectant is substantially removed before the cells are contacted with water. This is in contrast to the earlier methods (e.g., Critser et al.; U.S. Pat. No. 5,700,632) where aqueous medium is used in a predetermined protocol to remove extracellular and intracellular cryoprotectant concentrations.


REFERENCES:
patent: 3791384 (1974-02-01), Richter et al.
patent: 3893308 (1975-07-01), Barkay et al.
patent: 4007087 (1977-02-01), Ericsson
patent: 4348283 (1982-09-01), Ash
patent: 4429542 (1984-02-01), Sakao et al.
patent: 4480682 (1984-11-01), Kaneta et al.
patent: 4487033 (1984-12-01), Sakao et al.
patent: 4581141 (1986-04-01), Ash
patent: 4661246 (1987-04-01), Ash
patent: 5277820 (1994-01-01), Ash
patent: 5643794 (1997-07-01), Liu et al.
patent: 5700632 (1997-12-01), Critser et al.
patent: 6068775 (2000-05-01), Custer et al.
Thorner, J. and Paulus, H., “Catalytic and Allosteric Properties of Glycerol Kinase fromE

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