Hepatocyte suspension for liver cell transplantation : consequences of cryopreservation/thawing and evaluation of the infusion related pro-coagulant activity

Stéphenne, Xavier

08 November 2007

La transplantation d’hépatocytes est une nouvelle approche thérapeutique pour le traitement des maladies métaboliques. Elle peut être proposée en alternative à la transplantation de foie entier ou, à tout le moins, en attente de celle-ci chez les patients instables, à risque de décompensation métabolique. Les essais cliniques effectués chez 9 patients aux cliniques St Luc ainsi que ceux publiés dans la littérature démontrent l’intérêt de la transplantation de cellules hépatiques à court et moyen terme. La qualité de la suspension cellulaire transplantée reste le premier facteur limitant pour le développement clinique de la technique. La cryopréservation reste le moyen le plus approprié pour la conservation à long terme des cellules. Elle permet de constituer une banque de cellules pouvant être utilisées à tout moment. Nous avons d’abord analysé les protocoles de cryopréservation décrits dans la litérature, ainsi que leurs limites tant au niveau de la préservation de la qualité cellulaire après décongélation in vitro qu’après transplantation in vivo. Dans ce travail, nous avons démontré l’intérêt d’utiliser des cellules cryopréservées/décongelées, afin de stabiliser des patients atteints de maladies du cycle de l’urée, avant la greffe de foie entier. Les tests de contrôle de qualité effectués sur ces cellules ont cependant montré une altération aux niveaux biochimique et cellulaire, après décongélation. Nous avons ainsi démontré une chute des concentrations intracellulaires d’ATP, signe d’une atteinte mitochondriale. Nos travaux ont également permis de mettre en évidence une diminution de la consommation d’oxygène des hépatocytes en suspension, due plus particulièrement à une atteinte du complexe 1 de la chaîne respiratoire. Cette atteinte mitochondriale peut déjà être observée après l’incubation de la suspension cellulaire à –20°C. Aux alentours de cette température critique se fait le passage de l’état aqueux à l’état cristallin suggérant que les dégâts mitochondriaux observés sont dès lors vraisembablement dus à la formation de glace intracellulaire durant le processus de cryopréservation ou de décongélation. Diverses tentatives visant à améliorer les paramètres mitochondriaux affectés par le processus de congélation/décongélation par l’addition d’agents protecteurs du complexe 1 (Bilobalide), d’ inhibiteurs du pore de transition de perméabilité (Ciclosporine A), d’ anti-oxydants ou encore de solutions hyperosmotiques à la solution de cryopréservation, n’ont pas permis d’améliorer la qualité cellulaire. Le tri de sous-types de populations hépatocytaires ou l’isolement de foies hépatectomisés n’ont pas permis de révéler de différences de capacité de résistance à la cryopréservation. Toujours dans le but d’améliorer le rendement de la transplantation d’hépatocytes et d’augmenter l’efficacité d’implantation dans le parenchyme receveur, nous avons démontré dans la deuxième partie de la thèse la capacité des hépatocytes isolés (fraîchement isolés ou cryopréservés/décongelés) à induire un phénomène de coagulation dépendant du facteur tissulaire. Cette activité pro-coagulante, inhibée in vitro par lea N-acetyl-L-cystéine, pourrait être le point de départ d’une réaction inflammatoire aspécifique influençant ainsi la réussite de la transplantation cellulaire. En conclusion, nous proposons dans ce travail différentes stratégies en vue de l’amélioration du rendement de la thérapie cellulaire. La vitrification, autre technique de cryopréservation, permettrait d’éviter la formation d’eau intracellulaire. Enfin la modulation de l’activité pro-coagulante par la N-acetyl-L-cystéine, due à la transplantation cellulaire, constitue une piste intéressante pour essayer d’améliorer l’implantation des cellules transplantées et ainsi le rendement de la greffe. / Liver cell transplantation provides clinical benefit to patients with congenital metabolic abnormalities and currently represents an alternative to orthotopic liver transplantation or at least an interim measure for unstable patients awaiting transplantation. Our team and others have already demonstrated that transplanted hepatocytes can achieve metabolic control in the short or medium term. The quality of transplanted cells remains the first limiting factor for the success of liver cell transplantation. Because the use of freshly isolated cells is restricted by contemporary organ donation, cryopreservation remains necessary for long-term storage and permanent availability of the cells. In this thesis, we have first reviewed and discussed established hepatocyte cryopreservation protocols, especially the cooling procedure, and have focussed on the in vitro and in vivo assays used for the evaluation of post-thawing hepatocyte quality. Amongst 9 cell transplanted patients in our center, several received exclusively or predominantly cryopreserved/thawed hepatocytes. We demonstrated post-transplantation benefits of using these cells in control patients with congentital abnormalities in the urea cycle, particularly with respect to clear evidence of cell engraftment and de novo appearance of enzyme activity. However, despite these clinical benefits, we found an in vitro relationship between the low post-thawing quality of cryopreserved /thawed hepatocytes and an alteration in their mitochondrial function. This post-thawing mitochondrial damage was already evident after the first −20°C cryopreservation step of our protocol, suggesting it occurrs early in the process, around the nucleation point, by intracellular ice formation. Cellular impairment could therefore be possibly explained by mechanical alteration of mitochondria due to water crystallisation during the cryopreservation process or thawing procedure. We also observed a poor efficacy of cryopreserved/thawed hepatocytes (as compared to freshly isolated cells) when used liver engraftment in two mice transplantation models. The marked reductions in intracellular ATP concentrations and the decreases in oxygen consumption by hepatocytes were therefore used as markers for the evaluation of the effects of several compounds such as bilobalide, hyperosmotic or anti-oxidant molecules, pore transition permeability inhibitors, and for the evaluation of the resistance of selected hepatocyte subtypes to cryopreservation protocols. We also demonstrated that isolated hepatocytes exert tissue factor-dependent pro-coagulant activity, which may contribute to the early loss of infused cells. We observed that the addition of N-acetyl-L-cysteine to hepatocyte suspensions inhibits coagulation activation. In conclusion, this work has identified several ways to improve the clinical benefit of liver cell transplantation, including new cryopreservation strategies, such as vitrification. In addition, modulation of the pro-coagulant activity induced by cell infusion with N-acetyl-L-cysteine might beneficially enhance cell engraftment.

Tissue factor

Liver cell transplantation

Hepatocyte

Cryopreservation

Procoagulant activity

Mitochondria

Comparison between two different cryoprotectants for human sperm, with emphasis on survival

Eklund, Karin, Engström, Malin

January 2008

<p>The increasing number of patients undergoing treatment with assisted reproductive techniques (ART) during the past years have led to the need of developing different methods for separation of spermatozoa that can be used for different fertilisation procedures and for freezing. Cryopreservation of spermatozoa includes preparation, freezing, storage and thawing.</p><p>In this study two different cryomedia (Cryo Protec I and Cryo Protec II) for human spermatozoa were compared. The main outcome was spermsurvival rate for spermatozoa after freezing. Sperm viability was assessed using the Hypo-osmotic swelling test which is based on osmolality.</p><p>A total of 86 samples of semen were used in this study (Cryo Protec I=38, Cryo Protec II=48). The survival rate between the two cryomedia did not differ much but Cryo Protectant I showed a small increase in survival for the spermatozoa after freezing. The Hypo-osmotic swelling test also showed similar values of viable spermatozoa for the two cryomedia both before and after freezing.</p>

gradient preparation

cryopreservation

sperm motility

viability test

HOS Test

Oxidative status and stress associated with cryopreservation of germplasm of recalcitrant-seeded species.

Naidoo, Cassandra.

17 October 2013

Genetic diversity of cultivated species and their wild relatives, as well as of wild species encompasses plant genetic resources or germplasm, the ex situ preservation of which embodies a critical aspect of biological conservation. While seed storage affords an efficient ex situ conservation method, recalcitrant seeds are intolerant of desiccation and cannot be stored conventionally in seed banks. Seeds of the three indigenous tree species investigated in this study, viz. Trichilia emetica, T. dregeana and Protorhus longifolia are recalcitrant, with the species considered to be endangered. Cryopreservation, which involves storage at ultra-low temperatures of selected tissue(s) from which plants are subsequently able to be generated, is currently the only method available for long-term ex situ conservation of recalcitrant-seeded species and affords significant potential for the future. Many protocols that have been applied for the cryopreservation of the germplasm of recalcitrant zygotic embryonic axes excised from seeds of tropical/sub-tropical species have resulted in survival post-cryo which has been recorded only as root development or callus formation, with shoot formation seldom occurring. Successful cryostorage of genetic resources cannot be achieved until post-cryopreservation recovery facilitates normal seedling development, i.e. the formation of both a fully functional root and a shoot. Cryopreservation requires the utilisation of the smallest explant possible (greatest surface area to volume ratio), the most suitable for recalcitrant seeds in general being the zygotic embryonic axis. Based on preliminary studies it was demonstrated that shoot production by axes is inhibited in association with a burst of reactive oxygen species (ROS), produced in response to wounding upon excision of the axis from the cotyledons, when these are attached close to the shoot apical meristem. It was postulated that a combination of the oxidative burst at the site of excision coupled with inadequate antioxidant machinery within the recalcitrant axis tissue, precludes shoot production. It was further considered highly probable that each subsequent stressful manipulation throughout the cryopreservation process would be accompanied by a surge of uncontrolled oxidative activity within the tissue, in response to the stress. Therefore, the primary aim of the study was to investigate the underlying causes of failure of shoot production after procedures associated with cryopreservation and to focus on ways to ameliorate the consequences of unbalanced oxidative metabolism. Additionally, studies were carried out to optimise each step of the cryopreservation procedure, viz. cryoprotection, dehydration, rehydration and cooling, and subsequent recovery, in conjunction with assessment of oxidative responses, ultimately to achieve successful cryopreservation of the embryonic axes of these species. The experimental work conducted to achieve this aim assessed changes in various biomarkers of injury, those selected for this study being three ROS, viz. superoxide, the hydroxyl radical and hydrogen peroxide, after axes were exposed to various pre-treatments, cryopreservation and recovery. Concomitantly, the elicited responses of endogenous antioxidant systems accompanying these steps were assessed. Changes in the levels of ROS and antioxidant activity were determined using various biochemical assays, and these parametres, together with assessment of shoot development, were investigated after each step of the cryopreservation process. The effect of stress on oxidative metabolism was tested after exposure to pre-treatments with and without the provision of various antioxidants, viz. DMSO, ascorbic acid and cathodic water, so as to determine the efficacy of selected ROS scavengers and, in general, to develop the best protocol for cryopreservation of embryonic axes of the three species. Significant results, in terms of shoot development and regulated ROS generation, were obtained after three major processes of the cryopreservation procedure. The production of roots and shoots by excised axes of T. emetica, T. dregeana and P. longifolia after excision (75%, 80% and 75%, respectively), and by 40% of excised axes of T. dregeana after each of the two further stages, cryoprotection and desiccation, were major achievements towards cryopreservation of the recalcitrant germplasm. The modulation of ROS by ascorbic acid and cathodic protection significantly improved survival of axes of both Trichilia species. In its entirety, the present study made significant advancements towards cryopreservation of recalcitrant germplasm and also towards understanding oxidative events associated with cryogenic processing and exposure to cryogenic conditions. This study concludes that unregulated metabolism is one of the underlying causes of failure of recalcitrant germplasm represented by zygotic axes, to survive cryopreservation. The application of antioxidants and cathodic protection during cryopreservation facilitated survival that has been previously unattainable. The outcomes of this study provide an informative platform for further optimising cryopreservation procedures for the germplasm of the species investigated, and extending the work to other recalcitrant-seeded species, especially those of tropical/sub-tropical provenances. / Thesis (M.Sc.)-University of KwaZulu-Natal, Westville, 2012.

Germplasm resources, Plant.

Seeds.

Theses--Botany.

Thermal Conductivity of Cryoprotective Agents with Applications to Cryopreservation by Vitrification

Ehrlich, Lili E.

01 April 2017

Cryopreservation is the preservation of biomaterials at extremely low temperatures. It is the only alternative for long-term storage of high quality biomaterials, with applications to biobanking and transplant medicine. Cryopreservation success revolves around the control of ice formation, which is known to be harmful. Ice formation is a path-dependent phenomenon, affected by the thermal history and presence of nucleation promotors. Cryoprotective agents (CPAs) are commonly added to the biomaterial to be preserved, in order to suppress ice formation and inhibit its growth during the cryopreservation protocol. Ice-free cryopreservation can be achieved in large-size systems when the biomaterial is loaded with a high CPA concentration solution and cooled rapidly, in a process that is known as vitrification (vitreous means glassy in Latin). During vitrification, the CPA viscosity increases exponentially with decreasing temperature, while the material is cooled to deep cryogenic temperatures faster than the typical time scale for crystallization. The material can potentially be stored indefinitely at such low temperatures. Large-size vitrification is associated with three competing needs on the CPA concentration. Since the cooling rate at the center of the specimen decreases with the increasing specimen size due to the scaling conductive resistance, higher CPA concentrations may be required to suppress crystallization in larger specimens. Higher CPA concentration generally requires lower cooling rates to avoid ice crystallization. On the other hand, since CPAs are potentially toxic, the lowest possible CPA concentration is required to maintain viability and facilitate functional recovery. The decrease in CPA concentration combined with an increase in cooling rates may intensify thermo-mechanical stress due to non-uniform thermal contraction to the point of structural destruction. Essentially, successful cryopreservation represents the outcome of an optimization problem on the composition and concentration of the CPA cocktail. The work presented in this thesis combines an experimental study on the thermal conductivity of relevant materials, and a theoretical study to identify the effects of the measured values on cryopreservation protocols. The unique contributions presented as the initial stage of the experimental study are: (i) the modification of the cryomacroscope and creation of an experimental program to make thermal conductivity measurements of CPA based on the existing transient hot wire technique, (ii) to develop a protocol for making thermal conductivity measurements during rewarming portion of the cryoprotocol, and (iii), to begin generating a data bank of thermal conductivity of CPA and materials used in cryopreservation. Thermal conductivity measurements are presented for the CPA Dimethyl Sulfoxide (DMSO), over a concentration range of 2M to 10M, in a temperature range of -180°C to 25°C. Samples of 2M to 6M DMSO were found to crystallize at quasi-steady cooling rates, while samples of 7.05 to 10M were found to vitrify. Thermal conductivities of the crystallized and vitrified material reach a tenfold difference at -180°C. The quality of measurements using the presented technique has been verified theoretically by means of finite element analysis (FEA) using the commercial code ANSYS. This experimental study is expanded to the study of thermal conductivity of the CPA cocktail DP6--a mixture of 3M DMSO and 3M propylene glycol, which has drawn significant attention in the cryobiology community in recent times. The unique contributions are the first thermal conductivity measurements reported in literature of the combined effect of DP6 with synthetic ice modulators (SIMs), including 6% 1,3Cyclohexanediol, 6% 2,3Butanediol, and 12% PEG400. Results of this study demonstrate that the thermal conductivity may vary by three fold between the amorphous and crystalline phases of DP6 below the glass transition temperature. Results of this study further demonstrate the ability of SIMs to decrease the extent of crystallization in DP6, even at subcritical cooling and rewarming rates. The accompanying theoretical investigation focuses on cryopreservation in a kidney model, in effort to explore how the thermal history is affected by variations in the measured thermal conductivity. This analysis is based on FEA using the commercial code ANSYS. In particular, the unique contributions of this study are: (i) thermal analysis of a vitrifying rabbit kidney based on an established rabbit-kidney cryopreservation protocol, and (ii), exploring scale-up thermal effects to a human-size organ. This represents a 21-fold increase in organ size. Results indicate that even in the case of the human kidney, cooling rates remain high enough in all parts of the kidney to prevent ice formation at temperatures above -100oC.

cryopreservation

cryoprotective agents

heat transfer

organ preservation

thermal conductivity

vitrification

Regulation of Volume by Spermatozoa and Its Significance for Conservation Biology

Barfield, Jennifer

08 August 2007

Reproductive science plays an important role in conservation biology. Quantitative studies of basic reproductive biology in wildlife are critical for the development of successful assisted reproductive technologies. Investigation of the volume regulatory mechanism of spermatozoa could produce options to improve the cryopreservation of spermatozoa and provide a non-hormonal contraceptive option for men, both of which could have significant impacts on global biodiversity preservation. Volume regulation of somatic cells involves the movement of osmolytes through various channels, including potassium channels. The potassium channels involved in volume regulation of human, monkey, and murine spermatozoa were investigated. Flow cytometry was used to gauge the sensitivity of the volume regulatory process of spermatozoa to various potassium channel inhibitors and a simultaneous hypotonic challenge. Channels potentially involved in regulatory volume decrease of spermatozoa varied with species but included voltage-gated (Kv) channels 1.4, 1.5, 1.7, 4.1, 4.2 and 4.3 as well as TWIK1, TWIK2, TASK1, TASK2, TASK3, TREK2 , and minK. The presence of some of these channels was confirmed by western blotting and immunocytochemistry. Changes in the motility patterns of human and monkey spermatozoa in the presence of potassium channel inhibitors during hypotonic stress were also observed, suggesting a relationship between volume regulation and motility. To evaluate potential organic osmolytes involved in, and compare effects of CPAs on, volume regulation, the isotonicity of murine epididymal spermatozoa was measured using a null point method. Spermatozoa were then exposed to high concentrations of various osmolytes and cryoprotective agents in isotonic medium to evaluate which compounds were able to penetrate the sperm plasma membrane. The osmotic responses of spermatozoa from strains of mice known to have spermatozoa of high (B6D2F1) and low (C57BL6) post-thaw fertility were compared during various osmotic challenges in various media. These experiments indicated that spermatozoa from B6D2F1 mice may have better volume regulation capabilities than spermatozoa from C57BL6 mice, suggesting that better post-thaw fertility of murine spermatozoa could be influenced by the volume regulatory process. The knowledge gained from these experiments could contribute to improved sperm handling and preservation techniques and be used to develop non-hormonal male contraceptives based on inhibiting volume regulation.

conservation biology

spermatozoa

volume regulation

potassium channels

contraception

cryopreservation

Avaliação da adição dos protetores celulares mio-inositol e ácido ferúlico ao meio de congelação na qualidade do sêmen criopreservado de equinos / Evaluation of the addition of cell protectors myo-inositol and ferulic acid to the cryopreservation medium on equine thawed sperm quality

Carvalho, Henrique Fulaneti

03 September 2013

A criopreservação do sêmen é de muita importância para a produção de equinos pois permite o amplo comércio internacional de sêmen e a redução dos custos com transporte de animais. Entretanto, o sêmen criopreservado apresenta reduzida longevidade e integridade funcional, um obstáculo para a expansão dessa técnica. Recentes descobertas sugerem que os maiores danos durante a criopreservação de sêmen de garanhões ocorrem devido ao desequilíbrio osmótico e às espécies reativas de oxigênio. Um método para combater os efeitos deletérios da congelação é utilizar substâncias que possam amenizar os danos subletais. O objetivo desse experimento foi avaliar o efeito da adição de duas substâncias com efeito protetor celular (mio-inositol e ácido ferúlico) ao meio de congelação, na qualidade do sêmen criopreservado de garanhões. Para isso foram realizadas 5 colheitas de sêmen de 5 garanhões. O sêmen foi processado para criopreservação e antes do envase foi dividido em 3 tratamentos: controle, mio-inositol (30mM) e ácido ferúlico (160 &#181;M). As palhetas foram descongeladas e analisadas quanto a motilidade computadorizada (CASA), integridade de membrana, estado metabólico e produção de espécies reativas de oxigênio (EROs) em microscopia de epifluorescência nos tempos 0, 2 e 4h de incubação a 37°C. Previamente foram realizadas validações da técnica de mensuração simultânea da membrana plasmática e estado metabólico (sondas PI, H33342 e resazurina) e correlação entre duas técnicas de mensuração de EROs (DCFH-DA e DCFH-DA com H33342). Os dados obtidos foram avaliados no programa SAS, versão 9,3 (SAS, 2011) utilizando ANOVA e medidas repetidas no tempo, para as validações foram realizadas regressões lineares simples. A adição de mio-inositol no diluidor de congelação resultou em maior motilidade total no tempo 2h e 4h e maior motilidade progressiva nos tempos 0 e 2h de incubação pós-descongelação em relação aos outros grupos. O tratamento com mio-inositol resultou em maior quantidade de células com membrana plasmática íntegra nos tempo 0h (53,3±1,4%); 2h (50,0±1,0%) e 4h (37,9±1,5%) de incubação que o grupo controle: 0h (48,0±1,0%); 2h (44,9±1,1%); e 4h (31,5±1,7%). O ácido ferúlico prejudicou as características de motilidade (CASA) e a integridade da membrana plasmática, entretanto melhorou o estado metabólico em todos os tempos. Conclui-se que o mio-inositol melhora as características de motilidade e a integridade de membranas espermáticas do sêmen criopreservado de equinos e que o ácido ferúlico apesar de prejudicar essas características promove melhor metabolismo espermático, mensurado pela técnica de redução da resazurina. / Sperm cryopreservation is of great importance for equine production, it assists in the international semen trade and reduce costs with animal transportation. However, frozen/thawed semen has reduced longevity and functional integrity and these is an obstacle to the expansion of this technique. The improvement in quality of cryopreserved semen is very important, especially to help become available more widely new technologies, such as sperm sexing. Recent findings suggest that the greatest damage during cryopreservation of stallion semen occur due to osmotic imbalance and the reactive oxygen species (ROS). One method to mitigate the deleterious effects of freezing is using substances that might lessen the sublethal damage. The objective of this experiment was to evaluate the quality of frozen/thawed stallion sperm after using two substances that have protective effects in the freezing medium: myo-inositol and ferulic acid. Were performed five sperm collection of 5 stallions. The semen was processed and before cryopreservation it was divided into three treatments: control, myo-inositol (30 mM) and ferulic acid (160 mM). The straws were thawed and analyzed at 0, 2 and 4 h of incubation time at 37°C. It was performed computerized motility (CASA), membrane integrity, metabolic status and ROS production using an epifluorescence microscope. Before beginning of the experiment were carried out validations of the technique of simultaneous assessment of plasma membrane and metabolic state (PI probes, H33342 and resazurin) and correlation between two measurement techniques ROS (DCFH-DA and DCFH-DA with H33342). The data were analyzed using the SAS version 9.3 (SAS, 2011) with ANOVA and repeated measures. For the probes validation were used linear regressions. The addition of myo-inositol in the freezing extender resulted in higher total motility in time 2h and 4h and increased progressive cells at 0 and 2 h of incubation post-thaw compared to the other groups. Treatment with myo-inositol resulted in a higher number of cells with intact plasma membrane in time 0h (53.3 ± 1.4%); 2h (50.0 ± 1.0%) and 4h (37.9 ± 1.5%) of incubation than the control group: 0h (48.0 ± 1.0%), 2h (44.9 ± 1.1%), and 4h (31.5 ± 1.7%). The use of ferulic acid resulted in the worst characteristics of motility (CASA) and plasma membrane integrity, however improved metabolic status at all incubation times. It is concluded that myo-inositol improves sperm motility characteristics and preserves membrane integrity of equine cryopreserved semen. Ferulic acid although impairing these characteristics, promotes better sperm metabolism, measured by resazurin test.

Criopreservação

Cryopreservation

DCFH-DA

DCFH-DA

Garanhão

Resazurin

Resazurina

Stallion

Criopreservação do sêmen ovino com incorporação de colesterol por ciclodextrina / Criopreservation of ram semen with colesterol loaded cyclodextrin

Batissaco, Leonardo

31 October 2014

A preocupação com a qualidade do sêmen ovino congelado tem sido motivo de muitas pesquisas, principalmente pela dificuldade da transposição cervical durante a inseminação artificial. Contudo, a inseminação intra-cervical é frequentemente usada em ovinos e resulta em redução da fertilidade com o uso do sêmen congelado. Neste sentido, esse estudo foi dividido em dois experimentos. No 1o experimento foi verificado o potencial da ciclodextrina pré-carregada com colesterol como aditivo ao diluidor na proteção da cinética espermática, integridade das membranas plasmática e acrossomal, função mitocondrial, capacitação espermática e produção de espécies reativas ao oxigênio (ROS) em espermatozoides criopreservados ovinos. Cinco ejaculados de seis carneiros (n = 30) foram divididos em três tratamentos: apenas diluidor (CON); diluidor + colesterol incorporado a ciclodextrina (CLC + CHO); e diluidor + ciclodextrina pura (CLCP). Após a diluição (50x106 espermatozóides/mL), o sêmen foi envasado em palhetas, identificado e criopreservado utilizando um sistema automatizado. Duas palhetas da mesma partida de cada tratamento foram descongeladas (a 37°C durante 30 segundos) e analisadas quanto motilidade (CASA), morfologia dos espermatozoides (DIC), integridade do plasma (PI-H342) e acrossomal (FITC-PSA) membranas, potencial mitocondrial (JC-1), produção de radicais livres (CellRox), peroxidação lipídica (BODIPY) e fluidez da membrana celular (merocianina 540). As comparações entre os grupos foram analisadas pelo PROC MIXED do SAS e o efeito de grupo foi detectado pelo teste de Tukey (p&lt;0,05) ou pela estatística não paramétrica de ordem (Kruskal-Wallis), quando era necessário. No 2º experimento os mesmos ejaculados foram divididos por congelabilidade baseados na motilidade total pós-descongelação (MTPD) e na porcentagem de redução na motilidade total (%RMT) quando comparados o sêmen in natura e o sêmen pós-descongelação (somente diluidor), sendo divididos nos grupos alta (MTPD&gt;60% e %RMT&lt;40%), intermediária (60%&gt;MTPD&gt;40% e 60%&gt;RMT&gt;40%) e baixa (MTPD&lt;40% e %RMT&gt;60%) congelabilidade. Foram analisados os tratamentos CON e CLC+CHO dentro de cada animal e de cada grupo quanto a motilidade (CASA), a integridade das membranas plasmática (PI-H342) e acrossomal (FITC-PSA), potencial mitocondrial (JC-1), peroxidação lipídica (BODIPY) e fluidez da membrana celular (merocianina 540). As comparações foram realizadas por análise de variância (ANOVA) em arranjo fatorial 3X3 (Tratamento CLC+CHO, CON e in natura X grupos alta, intermediária e baixa congelabilidade), as comparações entre os grupos foram analisadas pelo PROC MIXED do SAS e o efeito de grupo foi detectado pelo teste de Tukey (p &lt;0,05) ou pela estatística não paramétrica de ordem (Kruskal-Wallis), quando era necessário. No 1o experimento o tratamento CLC+CHO se mostrou mais eficaz em preservar os parâmetros de motilidade, integridade de membranas e potencial mitocondrial quando comparado aos demais tratamentos. O grupo CLCP mostrou queda nos parâmetros de motilidade, integridade de membrana, potencial mitocondrial, mostrando, com isso, uma queda na preservação espermática. No 2o experimento observou-se que o tratamento CLC+CHO mostrou maior grau de preservação para motilidade total e progressiva, células rápidas, preservação de membranas plasmática e acrossomal e potencial mitocondrial quando comparado ao CON. Esse efeito teve maior significância nos grupos de baixa e intermediária congelabilidade, não sendo tão expressivo no grupo de alta. Pode-se concluir com esse estudo que o tratamento com ciclodextrina acrescida de colesterol contribui para uma melhor preservação dos parâmetros espermáticos do sêmen ovino, principalmente em animais apresentando baixa congelabilidade, contudo não apresenta diferença em ejaculados de alta congelabilidade. / Frozen ram semen has been the subject of many researches, mainly due to the difficulty of cervical transposition during artificial insemination. However, intra-cervical insemination in sheep is often used, resulting in reduced fertility with the use of frozen semen. To this end, this study was divided into two experiments. In the first experiment was verified the potential of cyclodextrin loaded with cholesterol as an additive to the extender in the protection of sperm kinetics, integrity of plasmatic and acrosomal membranes, mitochondrial function, sperm capacitation and production of reactive oxygen species (ROS) in cryopreserved sheep sperm. Five ejaculates from six rams (n = 30) were divided into three treatments: only extender (CON); extender + cyclodextrin loaded with cholesterol (CLC + CHO); and extender + pure cyclodextrin (CLCP). After dilution (50x106 spermatozoa/mL), semen was stored in straws, identified and cryopreserved using an automated system. Two straws from each ejaculate and treatment were thawed (at 37° C for 30 seconds) and analyzed for motility (CASA), morphology of spermatozoa (DIC), plasmatic (PI-H342) and acrosomal (FITC-PSA) membrane integrity, mitochondrial potential (JC-1), production of free radicals (CellRox), lipid peroxidation (BODIPY) and cell membrane permeability (Merocyanine 540). Comparisons between groups were analyzed using PROC MIXED of SAS and the effect of group was detected by Tukey (p &lt;0.05) or by the order of nonparametric statistics (Kruskal-Wallis) test, when necessary. In the 2nd experiment the same ejaculates were divided by freezability based on the total post-thaw motility (TPTM) and the percentage of reduction in total motility (%RTM) when compared fresh and post-thaw semen (only extender), and divided into the groups: high (TPTM &ge; 60% and %RTM &le; 40%), intermediate (60%&gt; TPTM &gt; 40% and 60%&gt; %RTM &gt; 40%) and low (TPTM &le; 40% and %RTM &ge; 60%) freezability. CON and CLC + CHO treatments were analyzed within each animal and each group for motility (CASA), plasmatic (PI-H342) and acrosomal (FITC-PSA) membrane integrity, mitochondrial potential (JC-1), lipid peroxidation (BODIPY) and cell membrane permeability (Merocyanine 540). Comparisons were performed by analysis of variance (ANOVA) with a factorial arrangement 3x3 (groups CLC+CHO, CON and fresh X groups high, medium and low freezability), comparisons between groups were analyzed using PROC MIXED of SAS and the group effect was detected by the Tukey test (p &lt; 0.05) or no statistical order parametric (Kruskal-Wallis), when necessary. In the first experimente, CLC + CHO treatment was more effective in preserving the parameters of motility, membrane integrity, and mitochondrial potential compared to other treatments. The CLCP group showed a fall in the parameters of motility, membrane integrity, mitochondrial potential, showing thereby a decrease in sperm preservation. In the 2nd experiment, it was observed that the treatment CLC + CHO showed greater preservation for total and progressive motility, rapid cell preservation, plasmatic and acrosomal membranes and mitochondrial potential when compared to CON. This effect was most significant in the groups of low and intermediate freezability, not being as significant in the group of high freezability. We can conclud from this study that treatment with cyclodextrin loaded with cholesterol contributes to better preservation of sperm parameters in ram semen, especially in animals displaying low freezability, however there where no diference in the high freezability group.

Carneiro

Cholesterol

Ciclodextrina

Colesterol

Criopreservação

Cryopreservation

Cyclodextrin

Espermatozoide

Ram

Sperm

Limites de tolerância do espermatozóide caprino a soluções hiperosmóticas de sacarose e taxa de sobrevivência após criopreservação em diluentes contendo sacarose ou trealose e concentrações reduzidas de crioprotetores permeantes / Tolerance limits of goat spermatozoa to hyperosmotic sucrose solutions and survival rate after cryopreservation in extenders containing sucrose or trehalose and reduced concentrations of permeant cryoprotectants

Becker-Silva, Sandra Cristina

31 August 2004

Foi conduzida uma série de experimentos onde se buscou definir: 1) o limite de tolerância do espermatozóide caprino a soluções hiperosmóticas de sacarose; 2) um diluente para criopreservação de sêmen que minimizasse as flutuações de volume celular. O limite de tolerância da membrana, avaliado pelo corante eosina-nigrosina, foi de 930 mOsm em soluções de sacarose em Ringer-lactato a 38oC. Os danos à integridade de membrana (IM), em osmolalidades acima deste valor, se estabeleceram no primeiro minuto de exposição e não se agravaram até 10 minutos depois. A motilidade (MOT) foi mais afetada que a IM. A rediluição abrupta em meio isosmótico causou dano extenso e proporcional ao grau de desidratação prévia. Nos experimentos seguintes, adição de 375 mM de sacarose ao diluidor TRIS-gema com 6,8% de glicerol (TGG), 5 minutos antes da congelação, resultou em MOT e IM similares ao controle TGG sem sacarose. Descongelação e rediluição a 4oC favoreceram a MOT e, a 38oC, favoreceram a IM. O diluente TRIS-gema com 375 mM de sacarose e concentração de glicerol reduzida para 1,7% apresentou melhor MOT e IM que o controle (65% e 187% vs 52% e 100%, respectivamente). A MOT após 2 h e o vigor após 6 h foram maiores quando a rediluição pós-descongelação foi em 5 passos se comparado a 3 passos (28% e 9% vs 19% e 2%, respectivamente). Na fase seguinte do trabalho, diluentes elaborados com 300 mM após 6 h a 38oC, melhor MOT e vigor que o controle (33% e 26% vs 15% e 10%, respectivamente). A descongelação a 20oC favoreceu a MOT e o vigor nos tempos zero, 2 h e 6 h pós-descongelação em todos os grupos contendo sacarose. O etilenoglicol não diferiu do glicerol na concentração de 3,4% quando adicionado a diluente contendo 300 mM de sacarose. Nestes diluentes, a rediluição em 5 passos a 20oC não diferiu em MOT e IM da feita em 1 passo a 38oC. No último experimento, sêmen congelado em diluente contendo 300 mM de trealose e zero% de glicerol mostrou melhor IM após descongelação em um passo a 38oC (320% vs 100% no controle) e maior MOT às 6 h após descongelação e rediluição em 5 passos a 20oC (56% vs 26% no controle). Conclui-se que o sêmen caprino tolera soluções de sacarose até o limite de 930 mOsm, mas a rediluição deve ser progressiva. A desidratação parcial, causada por soluções concentradas de sacarose ou trealose, permite a congelação de sêmen sem adição de crioprotetores permeantes. Os melhores resultados foram obtidos em diluente TRIS-gema sem glicerol e adicionado de 300 mM de trealose. / The objective of this study was to: 1) define the tolerance limits of goat sperm to hyperosmotic sucrose solutions; 2) establish an extender that minimizes cell volume variations during the processes of freezing and thawing. Boer goat semen was diluted with Ringer-lactate-Sucrose solutions at 38oC. The hyperosmotic tolerance limit was 930 mOsm evaluated with eosin-nigrosin stain. At osmolalities above this value, damage was evident after 1 min and was not affected by further exposure. Redilution in a single step resulted in massive membrane damage that was nearly proportional to the dehydration intensity previously undergone. Motility (MOT) was more distinctly impaired than membrane integrity (MI). In the next experiments, addition of 375 mM sucrose (Suc) 5 min previous to freezing to TRIS-egg yolk extender containing 6.8% glycerin (TYG) resulted in sperm motility (MOT) and MI similar to control extender TYG without sucrose. Thawing and redilution at 4oC affected favorably the MOT, and at 38oC, was favorable to MI. When freezing in TRIS-egg yolk-Suc extenders with low glycerin concentration (1.7%) MOT and MI were significantly higher than in the control TYG (65% and 187% vs 52% and 100%, respectively). MOT 2 h after thawing and intensity of motility (INTMOT) after 6 h after thawing were better preserved after a redilution of 5 increasing volume-steps than after redilution of 3 steps (28% and 9% vs 19% and 2%, respectively). In sequence, extenders containing 300 mM sucrose and thawed-rediluted 5 steps at 20oC improved MOT and INTMOT after 6 h (33% and 26% vs 15% and 10% in the control Group). The thawing-redilution at 20oC improved the results in all groups containing sucrose. At a concentration of 3.4% added to TRIS-yolk extender with 300 mM sucrose, the cryoprotectant ethylene glycol gave similar results as glycerin. MOT and INTMOT in the different time intervals were not influenced by redilution in 5 steps at 20oC or in one step at 38<SUPoC. In the last experiment made, semen frozen in a TRIS-yolk extender with 300 mM trehalose and devoid of glycerin showed the best MI after thawing-redilution in 1 step at 38oC (320% vs 100% in the control Group). The highest MOT after 6 h incubation was observed when this group was thawed-rediluted at 20oC in 5 steps (56% vs 26% in the control). From the results obtained it may be concluded that the upper tolerance limit of goat spermatozoa to hyperosmotic sucrose solutions is 930 mOsm. The redilution and return to isosmolality should be stepwise made. Goat semen can be frozen in extenders devoid of permeant cryoprotectants like glycerin when, previous to freezing, the cells are partially dehydrated by concentrated sucrose or trehalose solutions. The best survival rate was obtained when freezing goat spermatozoa in a glycerin-free TRIS-yolk-extender containing 300 mM of trehalose.

Animal semen

Caprinos

Criopreservação

Cryopreservation

Goat

Sacarose

Sêmen animal

Sucrose

Desenvolvimento de métodos otimizados para criopreservação de microalgas verdes (Chlorophyta)

Fernandes, Maiara Sousa

24 February 2017

Frente à importância da preservação dos recursos genéticos algais depositados em coleções de referência para o apoio de programas de melhoramento, faz-se necessário o desenvolvimento de metodologias para a conservação de microalgas em estado metabolicamente inativo por longos períodos. Neste contexto, objetivou-se com o presente trabalho estabelecer protocolos otimizados de criopreservação para espécies de microalgas com arquiteturas celulares distintas (colonial cenobial, cocóide unicelular e colonial palmeloide), determinando-se os parâmetros ótimos para o congelamento, incluindo a fase de crescimento algal, além do tipo e da concentração de agentes crioprotetores. Foram testados três agentes químicos crioprotetores: dois agentes com alta permeabilidade celular, Glicerol e Dimetilsulfóxido (DMSO), e um agente não-permeável, Polietilenoglicol 400 (PEG 400). A otimização das variáveis foi realizada empregando-se delineamento composto central rotacional (DCCR) 22. Para a maioria das cepas unicelulares cocóides analisadas o congelamento durante a fase de desaceleração do crescimento algal (6º dia de cultivo) na presença do crioprotetor DMSO 7% (v/v) resultou nas taxas mais elevadas de viabilidade celular após a criopreservação (até 94%). Por outro lado, as taxas mais altas de recuperação da viabilidade celular de algas cenobiais (62,6%) foram obtidas mediante congelamento durante a fase de crescimento algal exponencial (3º dia de cultivo) na presença dos agentes glicerol e PEG 400 combinados na concentração de 5% (v/v) cada. Comportamento distinto também foi observado para as cepas palmelóides analisadas, com as taxas de recuperação mais elevadas (78,8%) tendo sido obtidas mediante congelamento durante a fase de desaceleração do crescimento algal (6º dia de cultivo) na presença da combinação de agentes crioprotetores, glicerol (5% v/v) + PEG 400 (5% v/v). Os resultados obtidos sugerem que a morfologia apresentada pelo talo algal pode ser um bom indicador para a escolha do agente crioprotetor a ser utilizado para a criopreservação. / In view of the importance of preserving algal genetic resources deposited in reference collections for the support of enhancement programs, it is necessary to develop methodologies for the conservation of microalgae in a metabolically inactive state for long periods. In this context, the objective of this work was to establish optimized cryopreservation protocols for microalgae species with distinct cellular architectures (cenobial colonial, unicellular coccoid and palmeloid colonial), determining the optimal parameters for freezing, including the algal growth phase, and also the type and concentration of cryoprotective agents. Three cryoprotectants were tested: two agents with high cell permeability, Glycerol and Dimethylsulfoxide (DMSO), and a non-permeable agent, Polyethylene Glycol 400 (PEG 400). The optimization of the variables was carried out using a central composite rotational design (CCRD) 22. For most of the single-celled coccoid strains analyzed, the freezing during the deceleration phase of algal growth (6th day of culture) in the presence of 7% DMSO cryoprotectant v/v) resulted in the highest rates of cell viability after cryopreservation (up to 94%). On the other hand, the highest rates of cellular viability of the cenobial algae (62.6%) were obtained by freezing during the exponential algal growth phase (3rd day of cultivation) in the presence of combined glycerol and PEG 400 agents in the concentration of 5% (v / v) for each one. Different behavior was also observed for the analyzed palmeloid strains, with the highest recovery rates (78.8%) being obtained by freezing during the deceleration phase of algal growth (6th day of culture) in the presence of the combination of cryoprotectants, glycerol (5% v/v) + PEG 400 (5% v/v). The results obtained suggest that the morphology presented by the algal stem can be a good indicator for the choice of cryoprotectant to be used for cryopreservation.

CNPQ::ENGENHARIAS

Microalgas

Criopreservação

Crioprotetores

DCCR

Microalgae

Cryopreservation

Cryoprotectors

Efeitos da concentração espermática e volume sobre as características do movimento espermático (CASA) e sobre membranas plasmática, acrossomal e mitocondrial (microscopia de epifluorescência) de espermatozóides eqüinos criopreservados / Effects of spermatic concentration and volume in motion characteristics (CASA) and plasmatic, acrosomal and mitochondrial membranes (epifluorescence microscopy) of equine cryopreserved spermatozoa

Nascimento, Juliana

07 March 2006

É sabido das vantagens da utilização do sêmen criopreservado na reprodução eqüina, mas também é de conhecimento que o entendimento desta biotecnologia ainda é carente. Não se tem concordância quanto à dose e concentração espermáticas ideais para se obter bons resultados de fertilidade. Assim, este experimento teve o intuito de avaliar o movimento espermático pelo sistema computadorizado (CASA), a morfologia espermática, além da integridade das membranas plasmática e acrossomal e o potencial de membrana mitocondrial, com sondas fluorescentes, em espermatozóides eqüinos criopreservados nas concentrações de 100, 200, e 400x106sptz/mL e nos volumes 0,50 e 0,25mL. Foram utilizados quatro garanhões sendo oito colheitas de cada animal, através de vagina artificial. Após a colheita, o sêmen foi diluído em extensor à base de leite desnatado (1:1), centrifugado 500xg por 10 minutos, o sobrenadante retirado, e o pellet ressuspendido em diluidor Botu-Crio® nas concentrações de 100 (C100), 200 (C200) e 400x106sptz./mL (C400). Em seguida, envasado em palhetas de 0,50 e 0,25mL. Para criopreservação do sêmen utilizou–se aparelho automatizado (TK3000®), com curvas de resfriamento -0,25ºC/min e de congelação -15ºC/min até -80ºC e -10ºC/min, até atingir -120ºC, quando as palhetas foram mergulhadas em N2 líquido (-196 ºC) e armazenadas em botijões criogênicos. Foram descongeladas duas palhetas de cada tratamento em banho-maria (37ºC por 30s). Uma amostra do sêmen foi diluída em formol salino para avaliação da morfologia espermática e outra em TALP sperm à concentração de 25x106sptz/mL. Logo após, uma amostra desta solução foi submetida à análise computadorizada do movimento espermático. As características analisadas foram: motilidade total (MTCA, %), motilidade progressiva (MPRO, %), velocidade progressiva (VSL, &#956;m/s), velocidade curvilinear (VCL, &#956;m/s), deslocamento lateral de cabeça (ALH, &#956;m) e freqüência de batimento flagelar (BCF, Hz). Em seguida, uma outra amostra foi avaliada quanto à integridade das membranas plasmática e acrossomal e o potencial de membrana mitocondrial, utilizando PI, JC-1 e FITC-PSA, por microscopia de epifluorescência. Foram determinados os percentuais de espermatozóides com membranas plasmáticas intactas (MPI), acrossomais intactas (MAI) e mitocondriais de alto potencial (APM) e membranas plasmática e acrossomal intactas e com alto potencial de membrana mitocondrial (PIAIA). Foi utilizada análise de variância (ANOVA) (p<0,05) e teste de médias SNK (p<0,05), pelo método SAS®. Não houve efeito da interação entre volume da palheta e concentração espermática para as características estudadas. As características do movimento espermático foram influenciadas pela concentração, de forma que C100>C200>C400, exceto em LIN e STR. O volume somente alterou os valores de STR e VCL. Quanto à integridade e funcionalidade das membranas, não houve efeito do volume, enquanto que as concentrações alteraram somente MPI (C100>C200>C400) e APM (C100=C200>C400). Na morfologia espermática, a concentração somente afetou a percentagem de cauda dobra ou enrolada (C100>C200=C400) e o volume de armazenamento somente as quantidades de cabeça isolada normal e patológica (0,50>0,25mL). Assim, o melhor método de congelação, neste experimento, foi em C100, seguido por C200 e por último C400, em ambos os volumes. Portanto, a qualidade seminal pós-descongelação está diretamente relacionada com a quantidade de agentes crioprotetores por unidade celular, independente do volume da palheta. / It has been known the advantages of cryopreserved semen utilization in equine reproduction, but the understanding of this biotechnology is uncertain yet. There was not agreement of the ideal spermatic dose and concentration to optimize fertility results. Thus this experiment had the objective to evaluate spermatic motion by computed analysis (CASA), spermatic morphology and the plasmatic and acrosomal membrane integrity and mitochondrial membrane potential with fluorescence probes of equine cryopreserved spermatozoa on 100, 200 and 400x106sptz/mL concentrations and 0.50 and 0.25mL volumes. Eight ejaculates from four stallions were collected in artificial vagina. The semen was diluted in skim-milk extender (1:1), centrifuged at 500xg for ten minutes, the supernatant was removed and the freezing extender Botu-Crio® was added in the pellet to a final concentrations of 100 (C100), 200 (C200) and 400x106sptz/mL (C400); after that, it was packed in 0.50 and 0.25mL straws. The cryopreservation of semen utilized an automatic system (TK3000®), with cooling slope -0.25°C/minute and freezing slope of -15°C/minute, until -80°C, and -10°C/minute, until -120°C, when the straws were plunged into liquid nitrogen (-196°C), and stored in cryogenics tank. They were thawed for 30s in a 37°C waterbath. A sample of semen was diluted in saline formol to morphology spermatic evaluation and another diluted in TALP sperm at 25x106sptz/mL. After, a sample was submitted to CASA evaluation. The analyzed characteristics were: total motility (TMCA, %), progressive motility (PROM, %), progressive velocity (VSL, µm/s), track speed (VCL, µm/s), beat cross frequency (BCF, Hz) and lateral amplitude of head (ALH, µm). Afterward, another sample was evaluated about plasmatic and acrosomal membranes integrity and mitochondrial potential membrane, using PI, JC-1 and FITC-PSA by epifluorescence microscope. It was determined the spermatozoa percentage with intact plasmatic membranes (IPM), intact acrosomal membranes (IAM), and high potential mitochondrial membrane (HPM) and intact plasmatic and acrosomal membranes and with high potential mitochondrial membrane (IPIAH). For statistical analysis were utilized variance analysis (ANOVA - p<0.05) and SNK test (p<0.05) with standard deviation, by SAS® system. There was not effect of straw volume and spermatic concentration interaction in the studied characteristics. The spermatic motion characteristics were influenced by concentration (C100>C200>C400), except LIN and STR. The volume changed the values of percentage of STR e VCL. In membrane integrity and functionality there was no volume effect, however the concentrations changed only IPM C100>C200>C400) e HPM (C100=C200>C400). In spermatic morphology, the concentration affected the percent of folded or coiled tail (C100>C200=C400) and the volume only affected the loose normal and abnormal head (0.50>0.25mL). Thus, the better freezing method, in this experiment, was C100, followed by C200, and C400, in both straws volumes. The seminal quality post-thawed is related with the cryoprotector quantity by cell, free of the straw volume.

concentração

concentration

criopreservação

cryopreservation

equine

eqüino

espermatozóides

spermatozoa

volume

volume