Two Components in L1210 Cells and Their Growth Characterization

BASKIN, STEVEN I., BESA, EMMANUEL C., WAKAYAMA, KIKUKO

03 1900

No description available.

Taurine

Growth kinetics

Heterogeneity of leukemia

Ficoll-Hypaque method

L1210 cells

Thérapie par les cellules souches mésenchymateuses dans la guérison tendineuse chez le cheval

Bourzac, Céline

08 1900

Les tendinites sont des lésions communes chez le cheval athlète, ayant un impact financier et sportif considérable. Les cellules souches mésenchymateuses (CSMs) de moelle osseuse (MO) sont empiriquement utilisées en clinique pour améliorer la guérison des affections myoarthrosquelettiques. Cependant, il est nécessaire de standardiser les protocoles d’isolement des CSMs équines et d’analyser leurs effets sur la guérison tendineuse pour ajuster leur dose. Les objectifs de cette étude étaient de comparer 3 méthodes d’isolement des CSMs équines et d’établir un modèle de guérison tendineuse minimal invasif pour analyser l’effet des CSMs sur cette guérison. Des CSMs de MO du sternum de juments étaient isolées par 3 protocoles couramment utilisés (adhérence au pétri (Classique) et 2 méthodes par gradient de densité (Percoll et Ficoll)). La viabilité des cellules après isolement, le rendement d’isolement, le nombre de CSMs obtenues après 14 jours de culture et leurs caractéristiques fonctionnelles (renouvellement et différentiation) étaient comparés entre les 3 protocoles. Les résultats suggéraient que le Percoll était le meilleur protocole en termes de rendement et de capacité de renouvellement des cellules. La différence n’était pas significative pour leur viabilité et leur capacité de différentiation. Un modèle de guérison tendineuse, consistant en une ténectomie du tendon extenseur latéral du doigt fut ensuite développé. Cependant, la grande variabilité interindividuelle de qualité de guérison dans le groupe pilote implique une ré-évaluation du modèle. Des études futures, avec des CSMs isolées par le Percoll dans de nouveaux modèles de guérison tendineuse devraient permettre de déterminer la dose adéquate de CSMs. / In equine athletes, tendinitis lesions are common and lead to substantial financial losses. Bone marrow (BM) mesenchymal stem cells (MSCs) are employed clinically empirically to enhance healing of musculoskeletal injuries. However, there is a need to standardize equine MSC isolation protocols, to analyze the effects of MSCs on tendon healing and to optimize dosage. The objectives of the study were to compare 3 methods of equine MSC isolation and develop a minimally invasive model of tendon healing to analyze the effects of MSCs on tendon healing. BM MSCs from the sternum of mares were isolated by 3 protocols (adherence to a plastic culture dish (Classic) and two gradient density separation protocols (Percoll and Ficoll)) to compare for cell viability, MSC yield, number of MSCs attained after 14 days of culture and functional characteristics (self-renewal and multilineage differentiation) of the MSCs. The results suggested that the Percoll protocol was the best of those assessed in terms of MSC yield and self-renewal potential and that MSCs retrieved with the Ficoll protocol had the lowest self-renewal. There were no significant differences in terms of cell viability and differentiation capacity. A tendon healing model was then developed and consisted of a 0.5 cm tenectomy of the lateral digital extensor tendon. However, interanimal variation of healing quality was so high within the pilot group that the model should be re-evaluated. Further studies using MSCs isolated with Percoll in other novel models of tendon healing would allow determination of the adequate dosage of MSCs.

Cheval

Guérison tendineuse

Cellules souches mésenchymateuses

Protocole d'isolement

Percoll

Ficoll

Horse

Tendon healing

Mesenchymal stem cell

Isolation protocol

Percoll

Ficoll

Thérapie par les cellules souches mésenchymateuses dans la guérison tendineuse chez le cheval

Bourzac, Céline

08 1900

Les tendinites sont des lésions communes chez le cheval athlète, ayant un impact financier et sportif considérable. Les cellules souches mésenchymateuses (CSMs) de moelle osseuse (MO) sont empiriquement utilisées en clinique pour améliorer la guérison des affections myoarthrosquelettiques. Cependant, il est nécessaire de standardiser les protocoles d’isolement des CSMs équines et d’analyser leurs effets sur la guérison tendineuse pour ajuster leur dose. Les objectifs de cette étude étaient de comparer 3 méthodes d’isolement des CSMs équines et d’établir un modèle de guérison tendineuse minimal invasif pour analyser l’effet des CSMs sur cette guérison. Des CSMs de MO du sternum de juments étaient isolées par 3 protocoles couramment utilisés (adhérence au pétri (Classique) et 2 méthodes par gradient de densité (Percoll et Ficoll)). La viabilité des cellules après isolement, le rendement d’isolement, le nombre de CSMs obtenues après 14 jours de culture et leurs caractéristiques fonctionnelles (renouvellement et différentiation) étaient comparés entre les 3 protocoles. Les résultats suggéraient que le Percoll était le meilleur protocole en termes de rendement et de capacité de renouvellement des cellules. La différence n’était pas significative pour leur viabilité et leur capacité de différentiation. Un modèle de guérison tendineuse, consistant en une ténectomie du tendon extenseur latéral du doigt fut ensuite développé. Cependant, la grande variabilité interindividuelle de qualité de guérison dans le groupe pilote implique une ré-évaluation du modèle. Des études futures, avec des CSMs isolées par le Percoll dans de nouveaux modèles de guérison tendineuse devraient permettre de déterminer la dose adéquate de CSMs. / In equine athletes, tendinitis lesions are common and lead to substantial financial losses. Bone marrow (BM) mesenchymal stem cells (MSCs) are employed clinically empirically to enhance healing of musculoskeletal injuries. However, there is a need to standardize equine MSC isolation protocols, to analyze the effects of MSCs on tendon healing and to optimize dosage. The objectives of the study were to compare 3 methods of equine MSC isolation and develop a minimally invasive model of tendon healing to analyze the effects of MSCs on tendon healing. BM MSCs from the sternum of mares were isolated by 3 protocols (adherence to a plastic culture dish (Classic) and two gradient density separation protocols (Percoll and Ficoll)) to compare for cell viability, MSC yield, number of MSCs attained after 14 days of culture and functional characteristics (self-renewal and multilineage differentiation) of the MSCs. The results suggested that the Percoll protocol was the best of those assessed in terms of MSC yield and self-renewal potential and that MSCs retrieved with the Ficoll protocol had the lowest self-renewal. There were no significant differences in terms of cell viability and differentiation capacity. A tendon healing model was then developed and consisted of a 0.5 cm tenectomy of the lateral digital extensor tendon. However, interanimal variation of healing quality was so high within the pilot group that the model should be re-evaluated. Further studies using MSCs isolated with Percoll in other novel models of tendon healing would allow determination of the adequate dosage of MSCs.

Cheval

Guérison tendineuse

Cellules souches mésenchymateuses

Protocole d'isolement

Percoll

Ficoll

Horse

Tendon healing

Mesenchymal stem cell

Isolation protocol

Percoll

Ficoll

DNA Aberrations in Atypical Cancer Cohorts

Lintell, Nicholas Adrian, n/a

January 2006

The incidence of Squamous Cell Carcinoma is growing in certain populations to the extent that it is now the most common skin lesion in young men and women in high ultraviolet exposure regions such as Queensland. In terms of incidence up to 45% of the Australian population over 40 years of age is thought to possess the precancerous Solar Keratosis lesion and with a small but significant chance of progression into SCC, understanding the genetic events that play a role in this process is essential. The major aims of this study were to analyse whole blood derived samples for DNA aberrations in genes associated with tumour development and cellular maintenance, with the ultimate aim of identifying genes associated with non-melanoma skin cancer development. This study had an explicit emphasis on the mitochondrial genome and nuclear genes that encode for subunits in the mitochondrial regulated energy transducing oxidative phosphorylation pathways. More specifically the first aim of this project was to analyse the NDUFA8, PTCH, NDUFAS, SMOH, SDHD, MMPI2, NDUFV1, EMSI, COXVIIc, and RASAI genes via non-specific fluorophoric Real-Time PCR for genetic aberrations in an affected Solar Keratosis and control cohort. The second aim was to analyse two specific genes, SDHD and MMPI2, for copy number aberrations via Dual-Labelled Probe Real-Time PCR in the same affected Solar Keratosis and control cohort. The third aim was to analyse Mitochondrial DNA Depletion syndrome (MDS) in a chemically exposed RAAF personnel cohort via Dual-Labelled Probe Real-Time PCR. The significance of these studies is in their contribution to the knowledge of the genetic pathways that are malformed in the progression and development of the pre-cancerous skin lesion Solar Keratosis. Furthermore, it would determine whether the genes analysed in this study exist in greater prevalence in the affected Solar Keratosis population compared to the control cohort. With regard to the MDS component, identifying the presence of this disease in these individuals was initially undertaken as part of a study to provide evidence in compensation claims. The diagnosis may assist in their medical therapy, insofar as some of them were now suffering from liver malfunctions and atypical male breast cancer. Another application of this effective and low cost method of diagnosing MDS is in populations with high HTV incidences. This is due to the fact that the most common drug used to treat this disease can give rise to the expression of MDS, thus further complicating the health status of HIV infected individuals. The analysis of this research was accomplished via the Real-Time PCR technique, with a non-specific fluorophore component in addition to specific Dual-Labelled Probe components, to ascertain the general nature of any aberration identified in the sample cohort. This project also employed additional methods of analysis such as DHPLC and DNA sequencing to assist in determining the veracity of its aims, particularly in terms of the precise detection of genetic aberrations via Real-Time PCR. Patients exhibiting male breast cancer and liver malftinctions were also analysed via Dual-Labelled Probe RealTime PCR to ascertain the presence of Mitochondrial DNA Depletion syndrome, a disorder characterised by lactic acidosis, liver failure, seizures, and congestive heart failure. Determining the presence of this syndrome in these patients would assist in their medical treatment, and contribute to the analytical methods available to diagnose this syndrome, which is known to occur in HIV sufferers due to the nucleoside drugs used to combat the disease. Real-Time PCR can adequately gauge the integrity of a genetic area in terms of amplicon malformities (non-specific-fluorophoric) and DNA copy number aberrations (Dual-Labelled Probe) via fluorophore signal differentials compared to wild-type samples and housekeeper profiles. The results of the first component of this project, namely the analysis of five gene pairs by non-specific fluorophoric Real-Time PCR, highlighted that a significantly higher incidence of putative aberrants is evident in the affected population when compared to the control cohort. The genes analysed were NDUFA8, PTCH, NDUFA5, SMOH, SDHD, MMP 12, NDUFVI, EMS 1, COXVIIc, and RASA 1. These ten genes were subdivided into five pairs; one of the pair being a gene associated with the development of a non-melanotic skin cancer (NMSC), the other a gene encoding for a subunit of the Electron Transport Chain (ETC). Each of these pairs exists in close proximity to one another on a particular chromosomal locale. Differences were highlighted in the single gene triplicate run population. The ETC genes (NDUFA8, NDUFA5, SDHD, NIDUFVI, COXVIIc) exhibited 10 / 720 (1.37%) as being putative mutants in the control population, compared to 117 / 675 (17.3%) for the affected population (p value less than 0.0001). The NMSC gene analysis (PTCH, SMOH, MMPI2, EMSI, RASA1) produced a 16 / 720 (2.22%) ratio for the control population, with the affected population having an incidence of 97 / 675 (14.4 %) for putative mutants (p value less than 0.0001). The observance of putative aberrants in the NDUFVI (p less than 0.018), EMS1 (p less than 0.003), COXVTIc (p less than 0.001), and RASA I (p less than 0.009) genes in the affected Solar Keratosis (SK) population was significantly higher than that observed in the control population. The majority of aberrations detected via the non-specific fluorophoric Real-Time PCR technique were small nucleotide base insertions and deletions. The analysis of the SK affected and control cohort via Real-Time PCR proved a cost-effective and reliable method in identifying the presence of DNA aberrations such as non-instructional sites. The results of the second component extended the findings of the non-specific fluorophoric analysis. The SDHD and MMPI 2 genes were analysed for copy number aberrations via Dual-Labelled Probe Real-Time PCR for genetic aberrations the same affected and control Solar Keratosis cohort. It was found that 12 of 279 samples had identifiable copy-number aberrations in either the SDHD or MMPI2 gene (this means that a genetic section of either of these two genes is aberrantly amplified or deleted), with five of the samples exhibiting aberrations in both genes. The MMPI2 gene also had nine samples identified as possessing an intronic heterozygous base-pair substitution anomaly via DNA sequencing. The NDUFA8 gene had 12 samples identified as anomalous via the DHPLC technique, 11 of which were identified via non-specific fluorophoric Real-Time PCR, with the analysis performed to verify the accuracy of the Real-Time technique in identifying DNA aberrations. This study identified DNA aberrations in an affected Solar Keratosis and control cohort and ascertained several particular genomic abnomialities in the SDHD, MMPI2 and NDUFA8 genes, with an emphasis on copy-number aberrations and amplicon abnormalities. In the third component of this study, namely the analysis of Mitochondrial DNA Depletion syndrome (MDS) in a jet-fuel exposed RAAF personnel cohort via Dual-Labelled Probe Real-Time PCR, the results indicated that four of the seven patients were expressing MDS. Of the four patients who exhibited a reduction in mitochondrial copy-number the average decrease was of a four-fold level, or approximately a depletion of mitochondrial copies from 200 plus to ~ 54 (74 % reduction in MtDNA). The patients who contributed DNA for investigation into the presence of MDS were suffering from liver malfunction and atypical male breast cancer. The Dual-Labelled Probe technique proved a reliable and cost effective method in identifying the presence of MDS in these patients, with the DNA extracted from fresh white blood cells that had been isolated using the Ficoll-Hypaque method. The importance of this is that accurate levels of Mitochondrial DNA copy numbers can be ascertained in white blood cells as it removes the presence of platelets, which also contain mitochondria but no nucleus. The analysis of ETC and NMSC associated genes in addition to mitochondrial copy number integrity means that this study investigated two aspects of the carcinogenetic pathway i.e. abnormal energy regulation and the regulation of micromolecular and macromolecular cellular homeostatic mechanisms. The mechanism of programmed cell death or apoptosis is regulated by the mitochondria and the ability of a genetically damaged cell to evade the apoptotic process is directly linked to a cell becoming cancerous. It is only after the evasion of apoptosis and the replication of the damaged cells' DNA into daughter cells that neoplastic events can occur. Thus, this study contributed to the understanding of how neo-plastic lesions may develop and progress into invasive tumours. It additionally assisted in proving the effectiveness of the RealTime PCR technique in detecting DNA aberrations and mitochondrial copy number anomalies.

Squamous cell carcinoma

solar keratosis lesion

DNA sequencing

Real-Time PCR technique

mitochondrial DNA depletion syndrome

Ficoll-Hypaque method