Comparative analysis of protocols for decellularization of corneal lenticular tissue

Shortage of donor corneas is a burning issue in ophthalmology. That is why there is a search for new alternative ways for treating corneal diseases. Decellularization technologies make it possible to create corneal tissue-engineered constructs that can adrress the issue of donor corneal shortage. Objective: to conduct a comparative analysis of effective methods for treating the corneal lenticula and to create an optimized and standardized decellularization protocol. Materials and methods. Corneal stromal lenticules obtained after ReLEx SMILE surgery were chosen for the study. Lenticule parameters: thickness 77–120 microns, diameter 6.5 mm. We used 3 protocols for the treatment of lenticules: 1) treatment with 1.5 M sodium chloride with nucleases (NaCl); 2) 0.1% SDS (SDS); 3) treatment with Trypsin-EDTA solution, followed by double washing in a hypotonic Tris buffer solution with nucleases (Trypsin-EDTA). Optical properties of lenticles were determined spectrophotometrically, where the samples before decellularization served as a control. Fluorescence imaging of nuclear material in the original cryosections was performed using Hoechst dye. The state of collagen fiber ultrastructure was assessed by scanning electron microscopy. The quantitative DNA content in fresh lenticules and in lenticules after treatment was analyzed. Results. All three decellularization protocols effectively removed nuclear and cellular material; the residual DNA content was < 50 ng/mg. However, the Trypsin-EDTA protocol led to significant damage to the extracellular matrix structure, which negatively affected the transparency of corneal tissue-engineered constructs. Transparency of samples for the NaCl protocol was close to native lenticules. Conclusion. To create a corneal tissue-engineered construct, NaCl decellularization protocols appear to be optimized and can be used to treat various corneal diseases.

Anticancer Activity of Spirulina Cultivated in Walne and Organic Media

Spirulina is Cyanobacteria containing active components which is potentially showing anticancer activity. The purposes of this study were to determine anticancer activity and selectivity of crude extracts<br />of Spirulina cultured using Walne and organic media, and to detect the apoptosis. The stages of this study included cultivation and harvesting of Spirulina, active components extraction, anticancer test and apoptosis<br />detection. Anticancer activity was determined using MTT assay. The crude extracts of Spirulina from Walne and organic cultures contained active components of alkaloids, flavonoids, steroids, and saponins. These<br />extracts were not toxic to normal breast cells (MCF-12a), but showed cytotoxic activity in breast cancer cells (MCF-7). The crude extract of Spirulina from Walne culture had IC50 value of 36.23 ppm and selectivity index 30.07, while the IC50 of organic culture was 117.78 ppm and selectivity index 7.17. Detection of apoptosis with Hoechst dye 33342 showed the apoptotic activity of Spirulina crude extract against MCF-7 cells.

9 ENDOSCOPY-MEDIATED INTRATUBAL INSEMINATION IN THE COW – A PRELIMINARY REPORT ABOUT THE APPLICATION OF A NOVEL MINIMALLY INVASIVE INSEMINATION TECHNIQUE

On their long path through the female reproductive tract to the fertilization site, spermatozoa are exposed to diverse influences and hazards of the cervical, uterine, and oviducal environment that naturally select viable sperms for the following fertilization. Consequently, this results in a reduction from several billions of sperms in the ejaculate to a functional sperm reservoir within the range of 102 in the isthmus of the Fallopian tube. A technique to deposit spermatozoa directly into the ampulla, thus bypassing most of the reproductive tract, enables a rigorous reduction in number of sperms deposited. Furthermore, it provides a direct assessment of sperm fertility. The aim of our study was to establish an endoscopy-assisted intratubal insemination technique using different sperm dosages, fresh or cryopreserved, to determine adequate conditions for optimal fertilization. Eighteen Simmental heifers were inseminated with fresh semen, and 9 heifers were inseminated with frozen semen using this novel technique. The heifers were synchronized using a modified Ovsynch protocol, and insemination was conducted 18 to 20 h after the second gonadotropin-releasing hormone application. Insemination of heifers was performed under epidural anaesthesia. A tubing system bearing the endoscope and an insemination device was introduced through the vaginal wall into the peritoneal cavity. The insemination device consisted of a tube connected to a curved glass capillary tube loaded with semen. After a visual examination of the ovaries for the presence of an ovulatory Graafian follicle, the capillary tube was inserted directly via the infundibulum into the ipsilateral ampulla and the semen dose was deposited. The entire procedure took ~10 min. Two days later the oviduct was flushed by the same technique. A tubing system connected to a metal catheter served for flushing the embryos and unfertilized oocytes from the oviduct into the uterine horn. Afterward, embryos and oocytes were collected by flushing the uterine horn using an embryo flushing catheter and an embryo filter (EmCon). Embryos were stained using a Hoechst dye to visualise the numbers of attached spermatozoa to the zonae pellucidae. From 18 inseminations with fresh semen doses of 7 to 28 million sperms, 7 embryos at the 2- to 8-cell stage were found. Two of these embryos had more than 10 accessory sperms (AS), 3 had 3 to 6 AS, and 2 were without AS. From 9 inseminations with frozen semen doses containing 1.5 million sperms, we obtained 2 embryos, one at the 4-cell stage without AS and one at the 8-cell stage with 5 AS. Additionally, 3 unfertilized oocytes were collected. In conclusion, these preliminary results demonstrate a promising technique for intratubal AI, which has to be further optimized by studying numbers and treatment of spermatozoa and time of insemination.

The Adipokine Chemerin Induces Apoptosis in Cardiomyocytes

Background: The adipokine chemerin has been associated with cardiovascular disease. We investigated the effects of chemerin on viability and intracellular signalling in murine cardiomyocytes, and the effects of insulin and TNF-α on cardiomyocyte chemerin production. Methods: Hoechst dye vital staining and cell cycle analysis were used to analyse the viability of murine cardiac cells in culture. Western blot was used to explore the phosphorylation of AKT and caspase-9 activity in neonatal rat cardiomyocytes and HL-1 cells. Finally, RT-qPCR, ELISA and western blot were performed to examine chemerin and CMKLR1 expression after insulin and TNF-α treatment in cardiac cells. Results: Chemerin treatment increased apoptosis, reduced phosphorylation of AKT at Thr308 and increased caspase-9 activity in murine cardiomyocytes. Insulin treatment lowered chemerin and CMKLR1 mRNA and protein levels, and the amount of chemerin in the cell media, while TNF-α treatment increased chemerin mRNA and protein levels but decreased expression of the CMKLR1 gene. Conclusion: Chemerin induces apoptosis, reduces AKT phosphorylation and increases the cleavage of caspase-9 in murine cardiomyocytes. The expression of chemerin is regulated by important metabolic (insulin) and inflammatory (TNF-α) mediators at cardiac level. Our results suggest that chemerin could play a role in the physiopathology of cardiac diseases.

Co-Expression Of The MUC1 Oncoprotein and CD34 On Primary Myeloma Bone Marrow Cells Identifies a Population With Myeloma Initiating Potential

Introduction A major challenge in the development of effective myeloma (MM) therapy is addressing tumor heterogeneity, with the presence of sub-clones that exhibit resistance to standard therapy. An ongoing area of investigation focuses on identification of myeloma initiating cells that demonstrate greater capacity for self-renewal and serve as a potential reservoir for disease recurrence. It has been postulated that MM cells arise from a primitive B cell precursor population distinct from the more differentiated malignant plasma cell population. The critical feature of these myeloma-propagating cells is thought to be the ability to efficiently recapitulate MM in immunocompromised mice. MUC1 is an oncoprotein aberrantly expressed in malignant cells, including multiple myeloma, that interacts with multiple transcription factors, such as NF-κB and the β-catenin/TCF4 complex, that regulate cell survival and proliferation critical for malignant transformation. We have previously demonstrated that MUC1 is expressed by AML leukemic blasts, as compared to normal hematopoietic stem cells, and blockade of MUC1 signaling prevents establishment of leukemia in immunocompromised animals. In the present project, we identify a unique population of CD34+/MUC1+/CD138+/CD20+ cells in primary MM bone marrow samples that exhibit features of myeloma initiating cells, as manifested by high levels of enzymatic ALDH activity, the ability to efflux Hoechst dye represented as “side population” (SP), and the ability to establish disease in immunocompromised mice. Of note, MM engraftment of unselected primary myeloma cells in a xenograft model has a low success rate, and typically requires the introduction of an artificial stromal support network. Methods and results Bone marrow aspirates were obtained from newly diagnosed MM patients using an established protocol approved by the IRB. Expression of MUC1, myeloid and lymphoid markers was assessed using multicolor flow cytometric analysis. While MUC1 shows only a minimal expression (<5%, n=8) in normal CD34+ hematopoietic progenitors, we have demonstrated that on average 54% of CD34+ cells isolated from bone marrow samples of MM patients expressed MUC1 (n=7, p<0.05), in addition to other MM and lymphoid markers. MM derived CD34+MUC1+ cells segregated with SP by the ability to efflux Hoechst dye and expressed high levels of ALDH as assessed by the Aldefluor assay (11% of CD34+MUC+ cells had high ALDH activity as opposed to less than 1% in bulk MM marrow cells, n=3). CD34+MUC+ cells co-expressed CD138+, CD20+, and were CD38 dim (n=7), consistent with the phenotypic markers that have been previously described in association with myeloma propagating cells. In order to study the capacity of CD34+MUC1+ cells to recapitulate MM in a murine model, a bone marrow sample was obtained from a patient with newly diagnosed MM with a cytogenetic abnormality characterized by the rearrangement of the CCND1/IGH loci. Primary bone marrow cells were fluorescently labeled and CD34-MUC+ (consistent with mature CD138+CD38hi plasma cells) and CD34+MUC+ populations of cells were isolated using FACS sorting. Cells from each population were injected into an irradiated NOD/SCID mouse (0.5x106cells/mouse). After 13 weeks, no human engraftment was detected in the 4/4 mice injected with CD34-MUC+ population of mature plasma cells. In contrast, 2/2 mice injected with CD34+MUC+ cells demonstrated human engraftment. Engrafted cells were isolated by FACS sorting and transferred onto glass slides for cytogenetic analysis by FISH. Notably, the engrafted cells harbored rearrangement at CCND1/IGH loci consistent with the originating MM clone. In another experiment, 2/2 NOD/SCID mice inoculated with CD34+MUC1+ primary MM cells demonstrated MM engraftment after 12 weeks, characterized by the presence of CD138+CD45- human plasma cells in the murine bone marrow. Conclusions We have identified a subpopulation of primitive myeloma cells that coexpress CD34 and the MUC1 oncoprotein. CD34+MUC1+ cells express CD20 and CD138, and express high levels of ALDH. CD34+MUC1+ cells demonstrate the capacity to engraft human MM cells in immunocompromised mice, even without an artificial stromal framework. Inhibition of MUC1 signaling thus may offer new avenues to target critical myeloma subclones. Disclosures: No relevant conflicts of interest to declare.

The “Side-Population” of Human Lymphoma Cells Have Increased Chemo-Resistance, Stem-Cell Like Properties and Are Potential Targets for Immunotherapy

We have previously demonstrated that hematological malignancies contain a distinct “side-population” (SP), which is characterized by the active transport of Hoechst fluorescent dye. The mechanisms responsible for Hoechst efflux also contribute to resistance of the SP to chemotherapy. This population has also been shown to be enriched for tumor initiating cells in several human cancer models. We hypothesize that targeting the cancer “SP” cells using immunotherapy may prevent relapse by eliminating the cell population that: is least sensitive to chemotherapy and has tumor repopulating potential. In this study we characterized SP cells in ten human lymphoma cell lines. Five of the 11 lymphoma cell lines tested (HDLM2, L428, Ramos, Toledo, Karpas) had a distinct SP ranging from 0.8–2% of total cells. We subsequently found SP cells with tumor associated markers in biopsy samples from patients with Hodgkin’s Lymphoma, T-cell Lymphoma, and Follicular lymphoma. Culture of the sorted cell lines show that SP but not the non-SP cells produced progeny that were both SP and non-SP cells. Gene expression analysis of the SP showed increased expression of ABCG2 and other ABC transporters that mediate both the transport of Hoechst dye and selected chemotherapeutic agents out of the cell. We evaluated whether lymphoma cell lines with an SP are resistant to the chemotherapeutic drug gemcitabine. The viability of lymphoma lines containing SP cells was significantly higher (mean 59.8%; range 37.4–87.8%%) than the viability of lines without an SP (mean 9.3% range 3.0%–12.2%) when cultured with 10nM gemcitabine for 3 days. The SP component of the lymphoma cells became enriched 10 fold when cultured with gemcitabine. Furthermore, when equal numbers of SP and non-SP cells were grown in separate fractions with gemcitabine, there was reduced viability of the non-SP (2,247 +/−294 mean counts per minute (cpm)) by thymidine assay. In contrast, the viability of the SP was preserved (13,200 +/− 7500 mean cpm). There was no difference in the viability between the untreated SP and Non SP, so that the gemcitabine rather than the Hoechst dye accounts for the differences in viability. Although lymphoma SP cells are resistant to chemotherapeutic agents, they also express higher levels of tumor associated antigens that are known targets for cytotoxic T cells. Hence RT-PCR and immunohistochemistry both show that SP cells are HLA positive and have increased expression of MAGE-4, SSX2, Survivin and NY-ESO transcripts and protein compared to non-SP cells from the same tumor. In IFNγ ELISPOT assays, we have shown that T cells secrete IFNγ in response to SP targets. Hence, lymphoma cell lines and primary lymphoma tissue contain chemotherapy-resistant SP cells which express tumor associated antigens and may be targeted by specific T cells.

Characterization and localization of side population (SP) cells in zebrafish kidney hematopoietic tissue

We previously showed that side population (SP) cells, characterized by specific Hoechst dye efflux pattern in flow cytometric analysis, were present in teleost kidney hematopoietic tissue, and that kidney SP cells were enriched in hematopoietic stem cells (HSCs). ABCG2/Abcg2 is an ATP-binding cassette (ABC) transporter that is known to be associated with Hoechst dye efflux activity of mammalian HSCs. In the present study, we examined the expression and function of Abcg2 in kidney SP cells from zebrafish (Danio rerio). Although the zebrafish genome has 4 paralogous copies of ABCG2 (zAbcg2a, b, c, and d), zAbcg2a and zAbcg2c mRNA was expressed in kidney SP cells. Transfection of COS-7 cells with zAbcg2a and zAbcg2c showed that zAbcg2a was directly associated with the SP phenotype. These results indicate that zAbcg2a mRNA is a useful marker for zebrafish HSCs. In situ hybridization in kidney tissue showed that zAbcg2a-positive cells were sporadically localized on the surface of renal tubules, and tightly adhered to renal tubule epithelial cells. This result suggests that teleost HSCs adhere to the surface of renal tubules, and that renal tubule epithelial cells are a key component of HSC niche in teleosts.