Isolation of an Ecotropic Porcine Endogenous Retrovirus PERV-C from a Yucatan SLAD/D Inbred Miniature Swine.

Xenotransplantation may compensate the limited number of human allografts for transplantation using pigs as organ donors. Porcine endogenous retroviruses inherit infectious potential if pig cells, tissues, or organs were transplanted to immunosuppressed human recipients. Particularly, ecotropic PERV-C that could recombine with PERV-A to highly replication-competent human-tropic PERV-A/C should be excluded from pig breeds designed for xenotransplantation. Because of their low proviral background, SLAD/D (SLA, swine leukocyte antigen) haplotype pigs are potential candidates as organ donors as they do not bear replication-competent PERV-A and -B, even if they carry PERV-C. In this work, we characterized their PERV-C background isolating a full-length PERV-C proviral clone number 561 from a SLAD/D haplotype pig genome displayed in a bacteriophage lambda library. The provirus truncated in env due to cloning in lambda was complemented by PCR, and the recombinants were functionally characterized, confirming an increased infectivity in vitro compared to other PERV-C. Recombinant clone PERV-C(561) was chromosomally mapped by its 5'-proviral flanking sequences. Full-length PCR using 5'-and 3'-flanking primers specific to the PERV-C(561) locus verified that this specific SLAD/D haplotype pig harbors at least one full-length PERV-C provirus. The chromosomal location is different from that of the previously described PERV-C(1312) provirus, which was derived from the porcine cell-line MAX-T. The sequence data presented here provide further knowledge about PERV-C infectivity and contribute to targeted knockout in order to generate PERV-C-free founder animals. IMPORTANCE Yucatan SLAD/D haplotype miniature swine are candidates as organ donors for xenotransplantation. A full-length replication-competent PERV-C provirus was characterized. The provirus was chromosomally mapped in the pig genome. In vitro, the virus showed increased infectivity compared to other functional PERV-C isolates. Data may be used for targeted knockout to generate PERV-C free founder animals.

Is the near coming xenotransplantation era relieving us from needing to look for more non-living organ donors?

Despite organ transplantation being the most successful treatment for end-stage organ dysfunction, the number of annual solid organ transplantations is much lower than that required to satisfy the demand of patients on waiting lists. The explanation for this phenomenon is the relative scarcity of non-living organ donors due to several factors, such as: (1) Late arrival of patients with a neurocritical condition to an emergency service; (2) lack of detection of those patients as possible organ donors by health professionals dedicated to pro curement or by clinicians at emergency and intensive care units, for instance; (3) late transfer of the patient to an intensive care unit to try to recover their health and to provide hemodynamic, ventilatory, and metabolic support; (4) lack of confirmation of the physiological status of the possible donor; (5) late or incorrect positive diagnosis of the subject's death, either due to brain or cardiac death; (6) difficulty in obtaining legal authorization, either by direct relatives or by the authority, for the extraction of organs; and (7) deficient retrieval surgery of the organs actually donated. The recent reports of relatively successful xenotransplants from genetically modified pigs open the possibility to fix this mismatch between supply and demand, but some technical (organ rejection and opp ortunistic infections), and economic issues, still remain before accepting a progressive replacement of the organ sources for transplantation. An approximate economic cost analysis suggests that the hypothetical acquisition cost of any genetically modified pig derived organ is high and would not even satisfy the solid organ demand of the wealthiest countries.

The Influence of Interdisciplinary Work towards Advancing Knowledge on Human Liver Physiology.

The knowledge accumulated throughout the years about liver regeneration has allowed a better understanding of normal liver physiology, by reconstructing the sequence of steps that this organ follows when it must rebuild itself after being injured. The scientific community has used several interdisciplinary approaches searching to improve liver regeneration and, therefore, human health. Here, we provide a brief history of the milestones that have advanced liver surgery, and review some of the new insights offered by the interdisciplinary work using animals, in vitro models, tissue engineering, or mathematical models to help advance the knowledge on liver regeneration. We also present several of the main approaches currently available aiming at providing liver support and overcoming organ shortage and we conclude with some of the challenges found in clinical practice and the ethical issues that have concomitantly emerged with the use of those approaches.

Immature rat testis sustained long-term development using an integrative model.

BACKGROUND: Xenotransplantation has been primarily performed using fresh donor tissue to study testicular development for about 20 years, and whether the cultured tissue would be a suitable donor is unclear. In this study, we combined testicular culture and xenotransplantation into an integrative model and explored whether immature testicular tissue would survive and continue to develop in this model. METHODS: In the new integrative model group, the testes of neonatal rats on postnatal day 8 (PND 8) were cultured for 4 days ex vivo and then were transplanted under the dorsal skin of castrated nude mice. The xenografted testes were resected on the 57th day after xenotransplantation and the testes of rats in the control group were harvested on PND 69. The survival state of testicular tissue was evaluated from morphological and functional perspectives including H&E staining, immunohistochemical staining of 8-OH-dG, immunofluorescence staining, TUNEL assay, ultrastructural study, gene expression and protein analysis. RESULTS: (a) We found that complete spermatogenesis was established in the testes in the new integrative model group. Compared with the control in the same stage, the seminiferous epithelium in some tubules was a bit thinner and there were vacuoles in part of the tubules. Immunofluorescence staining revealed some ACROSIN-positive spermatids were present in seminiferous tubule of xenografted testes. TUNEL detection showed apoptotic cells and most of them were germ cells in the new integrative model group. 8-OH-dG immunohistochemistry showed strongly positive-stained in the seminiferous epithelium after xenotransplantation in comparison with the control group; (b) Compared with the control group, the expressions of FOXA3, DAZL, GFRα1, BOLL, SYCP3, CDC25A, LDHC, CREM and MKI67 in the new integrative model group were significantly elevated (P < 0.05), indicating that the testicular tissue was in an active differentiated and proliferative state; (c) Antioxidant gene detection showed that the expression of Nrf2, Keap1, NQO1 and SOD1 in the new integrative model group was significantly higher than those in the control group (P < 0.05), and DNA methyltransferase gene detection showed that the expression of DNMT3B was significantly elevated as well (P < 0.05). CONCLUSION: The new integrative model could maintain the viability of immature testicular tissue and sustain the long-term survival in vivo with complete spermatogenesis. However, testicular genes expression was altered, vacuolation and thin seminiferous epithelium were still apparent in this model, manifesting that oxidative damage may contribute to the testicular development lesion and it needs further study in order to optimize this model.

Are we ready for pig-to-human clinical xenotransplantation trials? / Estamos prontos para ensaios clínicos de xenotransplante porco-para-humanos? / ¿Estamos listos para ensayos clínicos de xenotrasplante del cerdo al humano?

Abstract: The invention and widely use of organ allotransplantation provides effective treatment of some originally fetal diseases such as liver/kidney failure and has saved million of lives around the globe. However, the scarcity of human organs has caused many patients, who could have been treated, to die while waiting for suitable organs around the world. Pig-to human xenotransplantation provides a potential solution to solve this tough problem. Pig organs have been considered as major sources of xenotransplantation because of the sufficient number of donors, the sizes of organs, and physiologically structural similarities. However, xenotransplantation also has some problems, such as the possibility of spreading animal diseases to human, the interspecies immunological barrier, organs of animal origin challenging human nature, and potential informed consent issues. This article will discuss these potential issues and to see whether it is the suitable time to conduct clinical xenotransplantation trials in humans.

Resumen: La invención y el amplio uso de trasplantes alógenos proporciona tratamiento efectivo de algunas enfermedades de origen fetal, como la insuficiencia renal y hepática, y ha salvado a millones de pacientes en el mundo. Sin embargo, la escasez de órganos humanos ha causado que muchos pacientes en el mundo, que podrían haber sido tratados, murieran por esperar un órgano adecuado. El xenotrasplante del cerdo al humano proporciona una solución potencial para resolver este difícil problema. Los órganos de cerdo han sido considerados como fuentes mayores para xenotrasplantes debido al suficiente número de donantes, el tamaño de los órganos y estructuras fisiológicas similares. No obstante, el xenotrasplante también tiene algunos problemas, como la posibilidad de expandir enfermedades animales a humanos, la barrera inmunológica entre especies, el desafío para la naturaleza humana de tener órganos de origen animal y problemas potenciales de consentimiento informado. Este artículo discute estos temas potenciales y plantea si estamos en un momento apropiado para realizar ensayos clínicos de xenotrasplantes en humanos.

Resumo: A invenção e amplo uso de alotransplante de órgãos propicia tratamento efetivo para algumas doenças originalmente fetais tais como falência hepática/renal e tem salvo milhões de vidas em todo o globo. Entretanto, a escassez de órgãos humanos tem causado a morte de muitos pacientes que poderiam ter sido tratados - aguardando por órgãos apropriados em todo o globo. Xenotransplante porco-para-humanos propicia uma solução potencial para resolver este difícil problema. Órgãos de porco tem sido considerados como as principais fontes de xenotransplante por causa do número suficiente de doadores, do tamanho dos órgãos e de similaridades estruturais fisiológicas. Entretanto, xenotransplante também tem alguns problemas, tais como a possibilidade de disseminar doenças animais aos humanos, a barreira imunológica entre espécies, órgão de origem animal desafiando a natureza humana e aspectos potenciais de consentimento informado. Esse artigo discutirá esses aspectos potenciais e verificará se é o momento adequado para conduzir ensaios clínicos de xenotransplante em humanos.

Immature rat testis sustained long-term development using an integrative model

BACKGROUND: Xenotransplantation has been primarily performed using fresh donor tissue to study testicular development for about 20 years, and whether the cultured tissue would be a suitable donor is unclear. In this study, we combined testicular culture and xenotransplantation into an integrative model and explored whether immature testicular tissue would survive and continue to develop in this model. METHODS: In the new integrative model group, the testes of neonatal rats on postnatal day 8 (PND 8) were cultured for 4 days ex vivo and then were transplanted under the dorsal skin of castrated nude mice. The xenografted testes were resected on the 57th day after xenotransplantation and the testes of rats in the control group were harvested on PND 69. The survival state of testicular tissue was evaluated from morphological and functional perspectives including H&E staining, immunohistochemical staining of 8-OH-dG, immunofluorescence staining, TUNEL assay, ultrastructural study, gene expression and protein analysis. RESULTS: (a) We found that complete spermatogenesis was established in the testes in the new integrative model group. Compared with the control in the same stage, the seminiferous epithelium in some tubules was a bit thinner and there were vacuoles in part of the tubules. Immunofluorescence staining revealed some ACROSIN-positive spermatids were present in seminiferous tubule of xenografted testes. TUNEL detection showed apoptotic cells and most of them were germ cells in the new integrative model group. 8-OH-dG immunohistochemistry showed strongly positive-stained in the seminiferous epithelium after xenotransplantation in comparison with the control group; (b) Compared with the control group, the expressions of FOXA3, DAZL, GFRα1, BOLL, SYCP3, CDC25A, LDHC, CREM and MKI67 in the new integrative model group were significantly elevated (P < 0.05), indicating that the testicular tissue was in an active differentiated and proliferative state; (c) Antioxidant gene detection showed that the expression of Nrf2, Keap1, NQO1 and SOD1 in the new integrative model group was significantly higher than those in the control group (P < 0.05), and DNA methyltransferase gene detection showed that the expression of DNMT3B was significantly elevated as well (P < 0.05). CONCLUSION: The new integrative model could maintain the viability of immature testicular tissue and sustain the long-term survival in vivo with complete spermatogenesis. However, testicular genes expression was altered, vacuolation and thin seminiferous epithelium were still apparent in this model, manifesting that oxidative damage may contribute to the testicular development lesion and it needs further study in order to optimize this model.

Zebrafish as a model to study inflammation: A tool for drug discovery.

This study aims to demonstrate the applicability and importance of zebrafish (Danio rerio) model to study acute and chronic inflammatory responses induced by different stimuli: carrageenan phlogogen (nonimmune); acute infection by bacteria (immune); foreign body reaction (chronic inflammation by round glass coverslip implantation); reaction induced by xenotransplantation. In addition to the advantages of presenting low breeding cost, high prolificity, transparent embryos, high number of individuals belonging to the same spawning and high genetic similarity that favor translational responses to vertebrate organisms like humans, zebrafish proved to be an excellent tool, allowing the evaluation of edema formation, accumulation of inflammatory cells in the exudate, mediators, signaling pathways, gene expression and production of specific proteins. Our studies demonstrated the versatility of fish models to investigate the inflammatory response and its pathophysiology, essential for the successful development of studies to discover innovative pharmacological strategies.

Zebrafish as a model to study inflammation: a tool for drug discovery

This study aims to demonstrate the applicability and importance of zebrafish (Danio rerio) model to study acute and chronic inflammatory responses induced by different stimuli: carrageenan phlogogen (nonimmune); acute infection by bacteria (immune); foreign body reaction (chronic inflammation by round glass coverslip implantation); reaction induced by xenotransplantation. In addition to the advantages of presenting low breeding cost, high prolificity, transparent embryos, high number of individuals belonging to the same spawning and high genetic similarity that favor translational responses to vertebrate organisms like humans, zebrafish proved to be an excellent tool, allowing the evaluation of edema formation, accumulation of inflammatory cells in the exudate, mediators, signaling pathways, gene expression and production of specific proteins. Our studies demonstrated the versatility of fish models to investigate the inflammatory response and its pathophysiology, essential for the successful development of studies to discover innovative pharmacological strategies.

A decade of experience with genetically tailored pig models for diabetes and metabolic research.

The global prevalence of diabetes mellitus and other metabolic diseases is rapidly increasing. Animal models play pivotal roles in unravelling disease mechanisms and developing and testing therapeutic strategies. Rodents are the most widely used animal models but may have limitations in their resemblance to human disease mechanisms and phenotypes. Findings in rodent models are consequently often difficult to extrapolate to human clinical trials. To overcome this 'translational gap', we and other groups are developing porcine disease models. Pigs share many anatomical and physiological traits with humans and thus hold great promise as translational animal models. Importantly, the toolbox for genetic engineering of pigs is rapidly expanding. Human disease mechanisms and targets can therefore be reproduced in pigs on a molecular level, resulting in precise and predictive porcine (PPP) models. In this short review, we summarize our work on the development of genetically (pre)diabetic pig models and how they have been used to study disease mechanisms and test therapeutic strategies. This includes the generation of reporter pigs for studying beta-cell maturation and physiology. Furthermore, genetically engineered pigs are promising donors of pancreatic islets for xenotransplantation. In summary, genetically tailored pig models have become an important link in the chain of translational diabetes and metabolic research.

Células madre adiposas humanas disminuyen el daño de la fibrosis hepática con baja persistencia de células trasplantadas en ratas / Human adipose stem cells decrease liver fibrosis damage with low persistence of transplanted cells in rats

RESUMEN: En la enfermedad hepática crónica el trasplante ortotópico es la única alternativa terapéutica actual pero es limitada por falta de donantes. Ensayos con células madre adultas en daño hepático agudo evidencian promisorios resultados. El objetivo de este trabajo fue evaluar en ratas con daño hepático crónico la efectividad de la infusión de células madre adiposas humanas (CMAd-h). Ratas con fibrosis hepática inducida por tioacetamida fueron agrupadas en: grupo I control que no recibió tioacetamida ni células madre, grupo II recibió tioacetamida y suero fisiológico i.v., grupo III recibió tioacetamida y células madre adiposas 1 x 106/kg i.v. vía vena de la cola. La regeneración hepática histológica se evaluó por el index METAVIR, mientras las Macrophagocytus stellatus, células estrelladas a- SMA+ y células colágeno I+ por inmunohistoquímica; el daño funcional se evaluó por los niveles sanguíneos de los analitos Aspartato Aminotransferasa (AST), Alanina Aminotransferasa (ALT), Fosfatasa Alcalina (ALP), úrea y nitrógeno ureico (BUN) y hemograma. Los resultados muestran atenuación del daño estructural hepático evidenciado por disminución de los nódulos, del grado de lesión histológica en el score Metavir, y disminución de Macrophagocytus stellatus, células a-SMA+ y células colágeno tipo I+; funcionalmente hay reducción moderada de AST, ALT, urea, BUN y disminución moderada de células blancas pero efecto favorable sobre el volumen corpuscular media y la hemoglobina corpuscular media. Ocho semanas después de la infusión hay escasa población de CMAd-h en el hígado. En conclusión la infusión intravenosa de CMAd-h en ratas disminuye el daño funcional y estructural de la fibrosis hepática con escasa persistencia de CMAd-h en el parénquima hepático. A nuestro conocimiento este es el primer trabajo que evalúa el efecto de las CMAd-h en el modelo daño hepático crónico murino y la persistencia de las células trasplantadas.

SUMMARY: In chronic liver disease, orthotopic transplantation is the only current therapeutic alternative but it is limited due to lack of donors. Trials with adult stem cells in acute liver damage show promising results. The aim of this work was to evaluate the effectiveness of human adipose stem cell (h-ASC) infusion in rats with chronic liver damage. Rats with thioacetamide- induced liver fibrosis were grouped into: group I control that did not receive thioacetamide and h-ASC, group II received thioacetamide and saline i.v., group III received thioacetamide and h-ASC 1 x 106/ kg i.v. via tail vein. Histological liver regeneration was evaluated by METAVIR index, while Macrophagocytus stellatus (Kupffer cells), stellate cells a-SMA+ and collagen I+ cells by immunohistochemistry; functional damage was evaluated by blood levels of the analytes Aspartate Aminotransferase (AST), Alanine Aminotransferase (ALT), Alkaline Phosphatase (ALP), Urea and Blood Urea Nitrogen (BUN) and hemogram. The results show attenuation of structural liver damage evidenced by decreased nodules, degree of histologic injury on Metavir score, and decreased Macrophagocytus stellatus, a-SMA+ cells and type I+ collagen cells; functionally there is moderate reduction of AST, ALT, urea, BUN and moderate decrease of white cells but favorable effect on mean corpuscular volume and mean corpuscular hemoglobin. Eight weeks after infusion there is a small population of h-ASC in the liver. In conclusion, intravenous infusion of h-ASC in rats reduces functional and structural damage of hepatic fibrosis with low persistence of h- ASC in the liver parenchyma. To our knowledge this is the first work that evaluates the effect of h-SC in the model of chronic murine liver damage and the persistence of transplanted cells.

A decade of experience with genetically tailored pig models for diabetes and metabolic research

Abstract The global prevalence of diabetes mellitus and other metabolic diseases is rapidly increasing. Animal models play pivotal roles in unravelling disease mechanisms and developing and testing therapeutic strategies. Rodents are the most widely used animal models but may have limitations in their resemblance to human disease mechanisms and phenotypes. Findings in rodent models are consequently often difficult to extrapolate to human clinical trials. To overcome this translational gap, we and other groups are developing porcine disease models. Pigs share many anatomical and physiological traits with humans and thus hold great promise as translational animal models. Importantly, the toolbox for genetic engineering of pigs is rapidly expanding. Human disease mechanisms and targets can therefore be reproduced in pigs on a molecular level, resulting in precise and predictive porcine (PPP) models. In this short review, we summarize our work on the development of genetically (pre)diabetic pig models and how they have been used to study disease mechanisms and test therapeutic strategies. This includes the generation of reporter pigs for studying beta-cell maturation and physiology. Furthermore, genetically engineered pigs are promising donors of pancreatic islets for xenotransplantation. In summary, genetically tailored pig models have become an important link in the chain of translational diabetes and metabolic research.

A decade of experience with genetically tailored pig models for diabetes and metabolic research

Abstract The global prevalence of diabetes mellitus and other metabolic diseases is rapidly increasing. Animal models play pivotal roles in unravelling disease mechanisms and developing and testing therapeutic strategies. Rodents are the most widely used animal models but may have limitations in their resemblance to human disease mechanisms and phenotypes. Findings in rodent models are consequently often difficult to extrapolate to human clinical trials. To overcome this translational gap, we and other groups are developing porcine disease models. Pigs share many anatomical and physiological traits with humans and thus hold great promise as translational animal models. Importantly, the toolbox for genetic engineering of pigs is rapidly expanding. Human disease mechanisms and targets can therefore be reproduced in pigs on a molecular level, resulting in precise and predictive porcine (PPP) models. In this short review, we summarize our work on the development of genetically (pre)diabetic pig models and how they have been used to study disease mechanisms and test therapeutic strategies. This includes the generation of reporter pigs for studying beta-cell maturation and physiology. Furthermore, genetically engineered pigs are promising donors of pancreatic islets for xenotransplantation. In summary, genetically tailored pig models have become an important link in the chain of translational diabetes and metabolic research.

Tecnologías disruptivas para la obtención de órganos y tejido artificial / Disruptive technologies for obtaining artificial organs and tissues / Tecnologias disruptivas para a obtenção de órgãos e tecidos artificiais

Propósito/Contexto. Este artículo tiene como objetivo exponer el panorama de las tecnologías disruptivas en la medicina regenerativa y la solución que plantean para la obtención de órganos y tejidos artificiales. En la actualidad, los métodos existentes, como los trasplantes y xenotrasplantes, han demostrado ser poco efectivos para solventar esa problemática de salud pública mundial. Metodología/Enfoque. Se hace una revisión de tecnologías como la ingeniería de tejidos, la ingeniería genética, la nanomedicina y la nanotecnología, que buscan sustituir o mejorar los métodos actuales. Resultados/Hallazgos. Las tecnologías disruptivas plantean aspectos bioéticos que deben ser vistos desde otra perspectiva; la manipulación de la materia a escala atómica y molecular abren un sinnúmero de posibilidades para mejorar la calidad de vida del hombre e incluso, prolongarla. Surge el concepto de nanobioética, en el que se toman los principios de la bioética contemporánea y se proyectan a escalas nanométricas para analizar las implicaciones positivas y negativas de la vida en esas dimensiones. Discusión/Conclusiones/Contribuciones. Los avances y tecnologías disruptivas plantean un impacto en la atención sanitaria, cambios socioculturales y nuevos paradigmas que implican desafíos desde lo científico, lo técnico y lo bioético.

Purpose/Context. The article aims to provide an overview of disruptive technologies in regenerative medicine as a solution to obtaining artificial organs and tissues. Existing methods such as transplants and xenotransplants have proven to be ineffective in resolving this world public health problem. Method/Approach. Technologies such as tissue engineering, genetic engineering, nanomedicine, and nanotechnology are addressed, which seek to replace or improve current methods. Results/Findings. Disruptive technologies involve bioethical aspects that must be considered from another perspective. The manipulation of matter on atomic and molecular scales opens up countless possibilities for improving the quality of human life and even extending it. As a result, the concept of nanobioethics has emerged, which takes the principles of contemporary bioethics and projects them on nanometric scales to analyze the positive and negative implications for life in these dimensions. Discussion/Conclusions/Contributions. Advances and disruptive technologies impact health care, produce sociocultural changes, and give rise to new paradigms, posing scientific, technical, and bioethical challenges.

Objetivo/Contexto. O presente artigo tem como objetivo expor o panorama respeito das tecnologias disruptivas na medicina regenerativa, e a solução que propõem para a obtenção de órgãos e tecidos artificiais. Atualmente os métodos existentes, como os transplantes e xenotransplantes, provaram ser pouco eficaz para resolver um problema de saúde pública mundial. Metodologia/Abordagem. Nesse sentido, é feita uma revisão de tecnologias como a engenharia de tecidos, a engenharia genética, a nanomedicina e a nanotecnologia, que buscam substituir ou melhorar os métodos atuais. Resultados/Descobertas. As tecnologias disruptivas colocam aspectos bioéticos que devem ser vistos sob outra perspectiva, a manipulação da matéria em escala atômica e molecular abrem inúmeras possibilidades para melhorar a qualidade de vida do homem e até prolongá-la. Surge então o conceito de nanobioética, no qual se tomam os princípios da bioética contemporânea, projetam-se em escalas nanométricas, buscando analisar as implicações positivas e negativas da vida nessas dimensões. Discussão/Conclusões/Contribuições. Os avanços e as tecnologias disruptivas causam impacto nos cuidados de saúde, mudanças socioculturais e novos paradigmas que implicam desafios nos aspectos científico, técnico e bioético.

Patient-derived xenografts of a case of ameloblastic fibrodentinoma.

OBJECTIVES: The establishment of animal models of xenotransplantation can contribute to the elucidation of the molecular pathogenesis of ameloblastic fibrodentinomas (AFD) and it also provides an opportunity for drug tests. We aimed to evaluate the possibility of AFD tumour growth in a patient-derived xenograft (PDX) model. In addition, we characterized the human tumour and the PDXs. MATERIALS AND METHODS: A sample of a recurrent AFD was obtained and two fragments were contralaterally implanted subcutaneously in an 8-week old female NUDE mouse. After 250 days, the PDXs were removed and submitted to histopathological and molecular analysis. Immunohistochemical reactions for Ki67 and the phosphorylated form of ERK1/2 were carried out in both, PDXs and human tumour, and the presence of BRAFV600E was assessed. RESULTS: From day 135 onwards, the PDXs presented a growth peak and remained stable until day 250. Histopathologically, the PDXs presented the same features of the patient's tumour. Tumour cells exhibited Ki67 and pERK1/2 immunoexpression in the patient's tumour and PDX. The AFD was wild-type for BRAFV600E. CONCLUSION: The PDX model recapitulated well the human tumour after a long implantation time, representing a possible model to study the AFD and other odontogenic tumours pathobiology.

Generation of mouse-zebrafish hematopoietic tissue chimeric embryos for hematopoiesis and host-pathogen interaction studies.

Xenografts of the hematopoietic system are extremely useful as disease models and for translational research. Zebrafish xenografts have been widely used to monitor blood cancer cell dissemination and homing due to the optical clarity of embryos and larvae, which allow unrestricted in vivo visualization of migratory events. Here, we have developed a xenotransplantation technique that transiently generates hundreds of hematopoietic tissue chimeric embryos by transplanting murine bone marrow cells into zebrafish blastulae. In contrast to previous methods, this procedure allows mammalian cell integration into the fish developmental hematopoietic program, which results in chimeric animals containing distinct phenotypes of murine blood cells in both circulation and the hematopoietic niche. Murine cells in chimeric animals express antigens related to (i) hematopoietic stem and progenitor cells, (ii) active cell proliferation and (iii) myeloid cell lineages. We verified the utility of this method by monitoring zebrafish chimeras during development using in vivo non-invasive imaging to show novel murine cell behaviors, such as homing to primitive and definitive hematopoietic tissues, dynamic hematopoietic cell and hematopoietic niche interactions, and response to bacterial infection. Overall, transplantation into the zebrafish blastula provides a useful method that simplifies the generation of numerous chimeric animals and expands the range of murine cell behaviors that can be studied in zebrafish chimeras. In addition, integration of murine cells into the host hematopoietic system during development suggests highly conserved molecular mechanisms of hematopoiesis between zebrafish and mammals.This article has an associated First Person interview with the first author of the paper.

Equine chorionic gonadotrophin improved vascularization of feline ovarian tissue xenografted into immunosuppressed mice.

The objective of this study was to evaluate effects of eCG on vascularization and development of feline ovarian tissue xenografted to immunosuppressed mice. Feline ovarian fragments (∼1 mm3) were transplanted under the renal capsule of 20 adult, ovariectomized, C57BL/6 SCID female mice. At 45 d after transplantation, 10 mice (controls) were euthanized and the remainder given 10 IU of eCG (and sacrificed 48 h later). Transplants were recovered immediately after death, fixed, sectioned, and stained with periodic acid-Schiff (PAS). Fragment volume (Cavallieri principle) and vascularization were assessed. Mean xenotransplant volume for control and treatment groups was 0.17 ±â€¯0.03 and 0.37 ±â€¯0.13 mm3, respectively (P = 0.0952); vascular volume density, 30.3 ±â€¯11.3 and 49.1 ±â€¯8.9% (P = 0.0281); surface density, 4.1 ±â€¯2.4 and 6.2 ±â€¯1.7 µm-1 (P = 0.2222); and vessel total surface, 0.63 ±â€¯0.24 µm2 and 2.28 ±â€¯1.05 µm2 (P = 0.0079). In conclusion, eCG significantly increased vascular volume density of xenotransplanted ovarian tissue and improved its development.

Human Adipose-Derived CD146+ Stem Cells Increase Life Span of a Muscular Dystrophy Mouse Model More Efficiently than Mesenchymal Stromal Cells.

Duchenne muscular dystrophy is the most common and severe form of progressive muscular dystrophy. Previous results showed an increased survival in double knockout mice (dko) when treated with adipose-derived CD146+ cells. In this study, we analyzed the effect of CD146+ cells compared to mesenchymal stem/stromal cells (MSCs) derived from the same human adipose sample when injected in the dko mouse model without immunosuppression. Both CD146+ cells and MSCs increased the survival of treated mice when compared to vehicle-injected mice, with a more prominent effect of CD146+ cells than MSCs. Both CD146+ cells and MSCs suppressed peripheral blood mononuclear cell proliferation, indicating immunomodulatory properties. Co-culture experiments showed that MSCs have a more inflammatory profile expression, and angiogenesis assay showed that CD146+ cells can improve blood vessel formation. CD146+ cells can extend survival of muscular dystrophy mice more efficiently than MSCs, possibly due to immunomodulatory and angiogenic properties. Further investigations focusing on exogenous CD146+ cell role in vivo will improve cell therapy understanding and effectiveness.

CRISPR/Cas and recombinase-based human-to-pig orthotopic gene exchange for xenotransplantation.

BACKGROUND: Tools for genome editing in pigs are improving rapidly so that making precise cuts in DNA for the purposes of deleting genes is straightforward. Development of means to replace pig genes with human genes with precision is very desirable for the future development of donor pigs for xenotransplantation. MATERIALS AND METHODS: We used Cas9 to cut pig thrombomodulin (pTHBD) and replace it with a plasmid containing a promoterless antibiotic selection marker and the exon for human thrombomodulin. PhiC31 recombinase was used to remove the antibiotic selection marker to create porcine aortic endothelial cells expressing human instead of pTHBD, driven by the endogenous pig promoter. RESULTS: The promoterless selection cassette permitted efficient enrichment of cells containing correctly inserted transgene. Recombinase treatment of selected cells excised the resistance marker permitting expression of the human transgene by the endogenous pTHBD promoter. Gene regulation was maintained after gene replacement because pig endogenous promoter was kept intact in the correct position. CONCLUSIONS: Cas9 and recombinase technology make orthotopic human for pig gene exchange feasible and pave the way for creation of pigs with human genes that can be expressed in the appropriate tissues preserving gene regulation.

Level of acceptance of islet cell and kidney xenotransplants by personnel of hospitals with and without experience in clinical xenotransplantation.

BACKGROUND: Recently, significant progress in both safety and efficacy has been achieved in the field of xenotransplantation, as exemplified by results from the first clinical trials of porcine islet transplantation. It would be of interest to learn whether the attitude of the clinical staff involved in such trials changes as the trials are carried out in their own hospital. METHODS: One hundred and four clinical staff members from the Eva Peron Hospital of San Martin (Buenos Aires, Argentina) where clinical trials of islet xenotransplantation have been performed and 92 similar staff members from the Diego Thompson Hospital (Buenos Aires, Argentina) where no such xenotransplantation has been carried out participated in the study. Data were collected anonymously using questionnaires. RESULTS: Statistically significant differences between the acceptance of xenotransplantation by clinical personnel in a hospital that had carried out clinical xenotransplantation trials were observed when compared with the acceptance of a similar staff from the hospital that had not carried out such trials. CONCLUSION: This study shows that involvement in clinical xenotransplantation trials significantly changes the attitude of the clinical staff towards this technology and suggests that better information given to the society may increase acceptance of the xenotransplantation.