Your search keyword '"Cardinale Vincenzo"' showing total 16 results

1. Vav1 Sustains the In Vitro Differentiation of Normal and Tumor Precursors to Insulin Producing Cells Induced by all-Trans Retinoic Acid (ATRA).

Author

Brugnoli, Federica, Grassilli, Silvia, Cardinale, Vincenzo, Carpino, Guido, Gaudio, Eugenio, Alvaro, Domenico, Capitani, Silvano, and Bertagnolo, Valeria

Subjects

TRETINOIN, INSULIN, PANCREAS, BILIARY tract, PROGENITOR cells, PANCREATIC tumors

Abstract

All-trans retinoic acid (ATRA) promotes the development and the function of insulin producing cells and induces partial differentiation of pancreatic tumor cells. A number of evidences clearly indicate that the ATRA mediated signaling may have a substantial role in therapeutic approaches based on restoration of functional β-cells. Among the proteins up-regulated by ATRA, Vav1 is involved in maturation and function of haematopoietic cells and is essential for retinoids induced differentiation of tumor promyelocytes. The presence of Vav1 in solid tissues, including pancreas, is considered ectopic and no role in the differentiation of human epithelial cells has so far been described. We demonstrated here that Vav1 sustains the maturation to β-cells of the normal precursors human Biliary Tree Stem/progenitor Cells (hBTSCs) induced by a differentiation medium containing ATRA and that, in the mature normal pancreas, insulin-producing cells express variable levels of Vav1. Using pancreatic ductal adenocarcinoma (PDAC)-derived cells, we also revealed that the ATRA induced up-modulation of Vav1 is essential for the retinoid-induced trans-differentiation of neoplastic cells into insulin producing cells. The results of this study identify Vav1 as crucial molecule in ATRA induced maturation of insulin producing cells and suggest this protein as a marker for new strategies ended to restore functional β-cells. [ABSTRACT FROM AUTHOR]

Published

2021

2. Human biliary tree stem/progenitor cells immunomodulation: Role of hepatocyte growth factor.

Author

Maraldi, Tullia, Guida, Marianna, Beretti, Francesca, Resca, Elisa, Carpino, Guido, Cardinale, Vincenzo, Gentile, Raffaele, Ardizzoni, Andrea, Murgia, Alba, Alvaro, Domenico, Gaudio, Eugenio, and De Pol, Anto

Subjects

IMMUNOREGULATION, BILIARY tract, PROGENITOR cells, HEPATOCYTE growth factor, MESENCHYMAL stem cells

Abstract

Aim Human biliary tree stem/progenitor cells (hBTSC) are multipotent epithelial stem cells with the potential for allogenic transplant in liver, biliary tree, and pancreatic diseases. Human mesenchymal stem cells, but also epithelial stem cells, are able to modulate immune responses with different types of secretion molecules. Methods The initial aim of the present study was to develop for the first time a culture protocol in order to expand hBTSC in vitro through passages, allowing to maintain a similar stem cell and secretome profile. Furthermore, we investigated the secretome profile of the hBTSC to assess the production of molecules capable of affecting immune feedback. Results We found that hepatocyte growth factor produced by hBTSC exerts its cytoprotective role inducing apoptosis in human immune cells, such as lymphocytes. Conclusions The present study, therefore, supports the hypothesis that hBTSC can be useful for the purpose of regenerative medicine, as they can be banked and expanded, and they can secrete immunoregulatory factors. [ABSTRACT FROM AUTHOR]

Published

2017

3. Progenitor cell niches in the human pancreatic duct system and associated pancreatic duct glands: an anatomical and immunophenotyping study.

Author

Carpino, Guido, Renzi, Anastasia, Cardinale, Vincenzo, Franchitto, Antonio, Onori, Paolo, Overi, Diletta, Rossi, Massimo, Berloco, Pasquale Bartolomeo, Alvaro, Domenico, Reid, Lola M., and Gaudio, Eugenio

Subjects

PROGENITOR cells, PANCREATIC duct, IMMUNOPHENOTYPING, CELL proliferation, IMMUNOHISTOCHEMISTRY

Abstract

Pancreatic duct glands ( PDGs) are tubule-alveolar glands associated with the pancreatic duct system and can be considered the anatomical counterpart of peribiliary glands ( PBGs) found within the biliary tree. Recently, we demonstrated that endodermal precursor niches exist fetally and postnatally and are composed functionally of stem cells and progenitors within PBGs and of committed progenitors within PDGs. Here we have characterized more extensively the anatomy of human PDGs as novel niches containing cells with multiple phenotypes of committed progenitors. Human pancreata ( n = 15) were obtained from cadaveric adult donors. Specimens were processed for histology, immunohistochemistry and immunofluorescence. PDGs were found in the walls of larger pancreatic ducts (diameters > 300 μm) and constituted nearly 4% of the duct wall area. All of the cells identified were negative for nuclear expression of Oct4, a pluripotency gene, and so are presumably committed progenitors and not stem cells. In the main pancreatic duct and in large interlobular ducts, Sox9+ cells represented 5-30% of the cells within PDGs and were located primarily at the bottom of PDGs, whereas rare and scattered Sox9+ cells were present within the surface epithelium. The expression of PCNA, a marker of cell proliferation, paralleled the distribution of Sox9 expression. Sox9+ PDG cells proved to be Pdx1+/Ngn3+/-/Oct4A−. Nearly 10% of PDG cells were positive for insulin or glucagon. Intercalated ducts contained Sox9+/Pdx1+/Ngn3+ cells, a phenotype that is presumptive of committed endocrine progenitors. Some intercalated ducts appeared in continuity with clusters of insulin-positive cells organized in small pancreatic islet-like structures. In summary, PDGs represent niches of a population of Sox9+ cells exhibiting a pattern of phenotypic traits implicating a radial axis of maturation from the bottoms of the PDGs to the surface of pancreatic ducts. Our results complete the anatomical background that links biliary and pancreatic tracts and could have important implications for the common patho-physiology of biliary tract and pancreas. [ABSTRACT FROM AUTHOR]

Published

2016

4. Stem/Progenitor Cell Niches Involved in Hepatic and Biliary Regeneration.

Author

Carpino, Guido, Renzi, Anastasia, Franchitto, Antonio, Cardinale, Vincenzo, Onori, Paolo, Reid, Lola, Alvaro, Domenico, and Gaudio, Eugenio

Subjects

LIVER regeneration, PROGENITOR cells, BILIARY tract, STEM cell treatment, ENDOTHELIAL cells, HYALURONIC acid

Abstract

Niches containing stem/progenitor cells are present in different anatomical locations along the human biliary tree and within liver acini. The most primitive stem/progenitors, biliary tree stem/progenitor cells (BTSCs), reside within peribiliary glands located throughout large extrahepatic and intrahepatic bile ducts. BTSCs are multipotent and can differentiate towards hepatic and pancreatic cell fates. These niches’ matrix chemistry and other characteristics are undefined. Canals of Hering (bile ductules) are found periportally and contain hepatic stem/progenitor cells (HpSCs), participating in the renewal of small intrahepatic bile ducts and being precursors to hepatocytes and cholangiocytes. The niches also contain precursors to hepatic stellate cells and endothelia, macrophages, and have a matrix chemistry rich in hyaluronans, minimally sulfated proteoglycans, fetal collagens, and laminin. The microenvironment furnishes key signals driving HpSC activation and differentiation. Newly discovered third niches are pericentral within hepatic acini, contain Axin2+ unipotent hepatocytic progenitors linked on their lateral borders to endothelia forming the central vein, and contribute to normal turnover of mature hepatocytes. Their relationship to the other stem/progenitors is undefined. Stem/progenitor niches have important implications in regenerative medicine for the liver and biliary tree and in pathogenic processes leading to diseases of these tissues. [ABSTRACT FROM AUTHOR]

Published

2016

5. Evidence for multipotent endodermal stem/progenitor cell populations in human gallbladder.

Author

Carpino, Guido, Cardinale, Vincenzo, Gentile, Raffaele, Onori, Paolo, Semeraro, Rossella, Franchitto, Antonio, Wang, Yunfang, Bosco, Daniela, Iossa, Angelo, Napoletano, Chiara, Cantafora, Alfredo, D’Argenio, Giuseppe, Nuti, Marianna, Caporaso, Nicola, Berloco, Pasquale, Venere, Rosanna, Oikawa, Tsunekazu, Reid, Lola, Alvaro, Domenico, and Gaudio, Eugenio

Subjects

*PROGENITOR cells, *CELL populations, *GALLBLADDER physiology, *MULTIPOTENT stem cells, *ORGAN donors, *LAPAROSCOPIC surgery, *GALLSTONES, *IMMUNOHISTOCHEMISTRY, *FLOW cytometry

Abstract

Background & Aims: Multipotent stem/progenitor cells are found in peribiliary glands throughout human biliary trees and are able to generate mature cells of hepato-biliary and pancreatic endocrine lineages. The presence of endodermal stem/progenitors in human gallbladder was explored. Methods: Gallbladders were obtained from organ donors and laparoscopic surgery for symptomatic cholelithiasis. Tissues or isolated cells were characterized by immunohistochemistry and flow cytometry. EpCAM+ (Epithelial Cell Adhesion Molecule) cells were immunoselected by magnetic microbeads, plated onto plastic in self-replication conditions and subsequently transferred to distinct serum-free, hormonally defined media tailored for differentiation to specific adult fates. In vivo studies were conducted in an experimental model of liver cirrhosis. Results: The gallbladder does not have peribiliary glands, but it has stem/progenitors organized instead in mucosal crypts. Most of these can be isolated by immune-selection for EpCAM. Approximately 10% of EpCAM+ cells in situ and of immunoselected EpCAM+ cells co-expressed multiple pluripotency genes and various stem cell markers; other EpCAM+ cells qualified as progenitors. Single EpCAM+ cells demonstrated clonogenic expansion ex vivo with maintenance of stemness in self-replication conditions. Freshly isolated or cultured EpCAM+ cells could be differentiated to multiple, distinct adult fates: cords of albumin-secreting hepatocytes, branching ducts of secretin receptor+ cholangiocytes, or glucose-responsive, insulin/glucagon-secreting neoislets. EpCAM+ cells transplanted in vivo in immune-compromised hosts gave rise to human albumin-producing hepatocytes and to human Cytokeratin7+ cholangiocytes occurring in higher numbers when transplanted in cirrhotic mice. Conclusions: Human gallbladders contain easily isolatable cells with phenotypic and biological properties of multipotent, endodermal stem cells. [Copyright &y& Elsevier]

Published

2014

6. Concise review: Clinical programs of stem cell therapies for liver and pancreas.

Author

Lanzoni, Giacomo, Oikawa, Tsunekazu, Wang, Yunfang, Cui, Cai-Bin, Carpino, Guido, Cardinale, Vincenzo, Gerber, David, Gabriel, Mara, Dominguez-Bendala, Juan, Furth, Mark E., Gaudio, Eugenio, Alvaro, Domenico, Inverardi, Luca, and Reid, Lola M.

Subjects

STEM cell treatment, REGENERATIVE medicine, PROGENITOR cells, LIVER disease treatment, PANCREATIC diseases, CLINICAL trials, HEMATOPOIETIC stem cells, IMMUNOLOGICAL adjuvants

Abstract

Regenerative medicine is transitioning into clinical programs using stem/progenitor cell therapies for repair of damaged organs. We summarize those for liver and pancreas, organs that share endodermal stem cell populations, biliary tree stem cells (hBTSCs), located in peribiliary glands. They are precursors to hepatic stem/progenitors in canals of Hering and to committed progenitors in pancreatic duct glands. They give rise to maturational lineages along a radial axis within bile duct walls and a proximal-to-distal axis starting at the duodenum and ending with mature cells in the liver or pancreas. Clinical trials have been ongoing for years assessing effects of determined stem cells (fetal-liver-derived hepatic stem/progenitors) transplanted into the hepatic artery of patients with various liver diseases. Immunosuppression was not required. Control subjects, those given standard of care for a given condition, all died within a year or deteriorated in their liver functions. Subjects transplanted with 100-150 million hepatic stem/progenitor cells had improved liver functions and survival extending for several years. Full evaluations of safety and efficacy of transplants are still in progress. Determined stem cell therapies for diabetes using hBTSCs remain to be explored but are likely to occur following ongoing preclinical studies. In addition, mesenchymal stem cells (MSCs) and hematopoietic stem cells (HSCs) are being used for patients with chronic liver conditions or with diabetes. MSCs have demonstrated significant effects through paracrine signaling of trophic and immunomodulatory factors, and there is limited evidence for inefficient lineage restriction into mature parenchymal or islet cells. HSCs' effects are primarily via modulation of immune mechanisms. S tem C ells 2013;31:2047-2060 [ABSTRACT FROM AUTHOR]

Published

2013

7. A stem/progenitor cell population with liver regenerative potency is harbored in human duodenal submucosal glands.

Author

Carpino, Guido, Cardinale, Vincenzo, Franchitto, Antonio, Overi, Diletta, Reid, Lola, Alvaro, Domenico, and Gaudio, Eugenio

Subjects

*CELL populations, *PROGENITOR cells, *GLANDS, *BILIARY tract, *ANATOMY

Abstract

The article presents a study on a stem/progenitor cell population within liver regenerative potency which is harbored in human duodenal sub mucosal glands. Topics include information on common hepato-bilio-pancreatic progenitors; early stage of development in the primitive duodenum; and immunohistochemistry and immunofluorescence of duodenum.

Published

2022

8. Hepatic stem/progenitor cell activation and ductular-canalicular junctions in primary biliary cholangitis.

Author

Overi, Diletta, Franchitto, Antonio, Cardinale, Vincenzo, Carbone, Marco, Alvaro, Domenico, Invernizzi, Pietro, and Carpino, Guido

Subjects

PROGENITOR cells, CHOLANGITIS, INTRAHEPATIC bile ducts

Abstract

The article offers information about the hepatic stem/progenitor cell activation and ductularcanalicular junctions in primary biliary cholangitis It mentions that hepatic stem/progenitor cells (HpSCs) are facultative bipotential stem cells, located in the canals of Hering and surrounded by a specialized niche.

Published

2022

9. PS-123-Biliary tree stem/progenitor cells mediate the regeneration in biliary lining after injury.

Author

Nevi, Lorenzo, Cardinale, Vincenzo, Lu, Wei-Yu, Matteo, Sabina Di, Safarikia, Samira, Constantini, Daniele, Melandro, Fabio, Berloco, Pasquale B., Gaudio, Eugenio, Forbes, Stuart, and Alvaro, Domenico

Subjects

*PROGENITOR cells, *ACCIDENTS, *HUMAN anatomy, *MEDICAL sciences, *BILIARY tract

Published

2019

10. Cholest-4,6-Dien-3-One Promote Epithelial-To-Mesenchymal Transition (EMT) in Biliary Tree Stem/Progenitor Cell Cultures In Vitro.

Author

Nevi, Lorenzo, Costantini, Daniele, Safarikia, Samira, Di Matteo, Sabina, Melandro, Fabio, Berloco, Pasquale Bartolomeo, and Cardinale, Vincenzo

Subjects

BILIARY tract, PROGENITOR cells, CELL culture, RECOMBINANT proteins, PROTEIN expression

Abstract

Human biliary tree stem/progenitor cells (hBTSCs), reside in peribiliary glands, are mainly stimulated by primary sclerosing cholangitis (PSC) and cholangiocarcinoma. In these pathologies, hBTSCs displayed epithelial-to-mesenchymal transition (EMT), senescence characteristics, and impaired differentiation. Here, we investigated the effects of cholest-4,6-dien-3-one, an oxysterol involved in cholangiopathies, on hBTSCs biology. hBTSCs were isolated from donor organs, cultured in self-renewal control conditions, differentiated in mature cholangiocytes by specifically tailored medium, or exposed for 10 days to concentration of cholest-4,6-dien-3-one (0.14 mM). Viability, proliferation, senescence, EMT genes expression, telomerase activity, interleukin 6 (IL6) secretion, differentiation capacity, and HDAC6 gene expression were analyzed. Although the effect of cholest-4,6-dien-3-one was not detected on hBTSCs viability, we found a significant increase in cell proliferation, senescence, and IL6 secretion. Interestingly, cholest-4.6-dien-3-one impaired differentiation in mature cholangiocytes and, simultaneously, induced the EMT markers, significantly reduced the telomerase activity, and induced HDAC6 gene expression. Moreover, cholest-4,6-dien-3-one enhanced bone morphogenic protein 4 (Bmp-4) and sonic hedgehog (Shh) pathways in hBTSCs. The same pathways activated by human recombinant proteins induced the expression of EMT markers in hBTSCs. In conclusion, we demonstrated that chronic exposition of cholest-4,6-dien-3-one induced cell proliferation, EMT markers, and senescence in hBTSC, and also impaired the differentiation in mature cholangiocytes. [ABSTRACT FROM AUTHOR]

Published

2019

11. Functions and the Emerging Role of the Foetal Liver into Regenerative Medicine.

Author

Giancotti, Antonella, Monti, Marco, Nevi, Lorenzo, Safarikia, Samira, D'Ambrosio, Valentina, Brunelli, Roberto, Pajno, Cristina, Corno, Sara, Di Donato, Violante, Musella, Angela, Chiappetta, Michele Francesco, Bosco, Daniela, Benedetti Panici, Pierluigi, Alvaro, Domenico, and Cardinale, Vincenzo

Subjects

LIVER cells, STEM cell niches, STEM cell transplantation, BILE ducts, LIVER, PROGENITOR cells, HEMATOPOIETIC stem cells, REGENERATIVE medicine

Abstract

During foetal life, the liver plays the important roles of connection and transient hematopoietic function. Foetal liver cells develop in an environment called a hematopoietic stem cell niche composed of several cell types, where stem cells can proliferate and give rise to mature blood cells. Embryologically, at about the third week of gestation, the liver appears, and it grows rapidly from the fifth to 10th week under WNT/β-Catenin signaling pathway stimulation, which induces hepatic progenitor cells proliferation and differentiation into hepatocytes. Development of new strategies and identification of new cell sources should represent the main aim in liver regenerative medicine and cell therapy. Cells isolated from organs with endodermal origin, like the liver, bile ducts, and pancreas, could be preferable cell sources. Furthermore, stem cells isolated from these organs could be more susceptible to differentiate into mature liver cells after transplantation with respect to stem cells isolated from organs or tissues with a different embryological origin. The foetal liver possesses unique features given the co-existence of cells having endodermal and mesenchymal origin, and it could be highly available source candidate for regenerative medicine in both the liver and pancreas. Taking into account these advantages, the foetal liver can be the highest potential and available cell source for cell therapy regarding liver diseases and diabetes. [ABSTRACT FROM AUTHOR]

Published

2019

12. Contribution of Resident Stem Cells to Liver and Biliary Tree Regeneration in Human Diseases.

Author

Overi, Diletta, Carpino, Guido, Cardinale, Vincenzo, Franchitto, Antonio, Safarikia, Samira, Onori, Paolo, Alvaro, Domenico, and Gaudio, Eugenio

Subjects

STEM cells, LIVER diseases, PROGENITOR cells, LIVER cells, BILIOUS diseases & biliousness

Abstract

Two distinct stem/progenitor cell populations of biliary origin have been identified in the adult liver and biliary tree. Hepatic Stem/progenitor Cells (HpSCs) are bipotent progenitor cells located within the canals of Hering and can be differentiated into mature hepatocytes and cholangiocytes; Biliary Tree Stem/progenitor Cells (BTSCs) are multipotent stem cells located within the peribiliary glands of large intrahepatic and extrahepatic bile ducts and able to differentiate into hepatic and pancreatic lineages. HpSCs and BTSCs are endowed in a specialized niche constituted by supporting cells and extracellular matrix compounds. The actual contribution of these stem cell niches to liver and biliary tree homeostatic regeneration is marginal; this is due to the high replicative capabilities and plasticity of mature parenchymal cells (i.e., hepatocytes and cholangiocytes). However, the study of human liver and biliary diseases disclosed how these stem cell niches are involved in the regenerative response after extensive and/or chronic injuries, with the activation of specific signaling pathways. The present review summarizes the contribution of stem/progenitor cell niches in human liver diseases, underlining mechanisms of activation and clinical implications, including fibrogenesis and disease progression. [ABSTRACT FROM AUTHOR]

Published

2018

13. Biliary tree stem cells and peribiliary glands are involved in primary sclerosing cholangitis and cholangiocarcinoma.

Author

Overi, Diletta, Carpino, Guido, Mancinelli, Romina, Cardinale, Vincenzo, Karlsen, Tom Hemming, Alvaro, Domenico, and Onori, Paolo

Subjects

STEM cells, PROGENITOR cells, CHOLANGIOCARCINOMA

Abstract

Peribiliary glands (PBGs) represent the niche of biliary tree stem/progenitor cells (BTSCs) [1]. BTSCs are multipotent stem cells able to differentiate into hepatocytes, cholangiocytes, and pancreatic islets. Primary sclerosing cholangitis (PSC) is a chronic inflammation involving extra-hepatic biliary tree, and is complicated by the risk of cholangiocarcinoma (CCA) development [2]. We aimed to evaluate the involvement of PBGs and BTSCs in PSC and their role in CCA insurgence [2]. Specimens from normal liver (N=5), PSC (N=20), and CCA arising in PSC patients (N=20) were included and processed for histology, immunohistochemistry and immunofluorescence. In vitro experiments were performed on human BTSCs and primary CCA cell cultures. PSC-affected ducts were characterized by the activation of BTSCs and by PBG hyperplasia. In PSC, ducts showed higher microvascular density around PBGs compared to normal ducts. In CCA arising in PSC patients, PBGs showed dysplastic and neoplastic aspects. Compared to non-cancerous ducts, neoplastic ducts showed higher inflammation, wall thickness, and PBG activation. CCAs were characterized by higher expression of epithelial-to-mesenchymal transition (EMT) traits in PBGs and by the absence of primary cilia in BTSCs compared to control ducts. In vitro study confirmed that human BTSCs, under inflammatory milieu, increased proliferation rate and expression of EMT traits, and lost primary cilia compared to control conditions. In conclusion, patients affected by PSC are characterized by PBG involvement and activation of BTSC niche; the insurgence of CCA was characterized by involvement of PBG niche, suggesting a key role of this cell compartment in progressive tumorigenesis. [ABSTRACT FROM AUTHOR]

Published

2018

14. Hepatic stem/progenitor cell activation differs between primary sclerosing and primary biliary cholangitis.

Author

Carpino, Guido, Franchitto, Antonio, Cardinale, Vincenzo, Folseraas, Trine, Overi, Diletta, Karlsen, Tom, Alvaro, Domenico, and Gaudio, Eugenio

Subjects

CHOLANGITIS, PROGENITOR cells, LIVER cells

Abstract

The activation of hepatic stem/progenitor cells (HPCs) is characterized by the appearance of ductular reaction (DR) in the liver parenchyma [1]. The aims of the present study were to evaluate the activation of HPCs in human cholangiopathies. Human liver tissue was obtained from liver donors (N=5), Primary Sclerosing Cholangitis (PSC; N=20), and Primary Biliary Cholangitis (PBC; N=20) patients. Ductular reaction extension was evaluated by Keratin(K) 7 immunoreactivity. HPC phenotype and signalling pathways were investigated by immunohistochemistry and immunofluorescence [2]. Ductular reaction in PBC is more extensive, appears earlier, and has a higher proliferation index compared to PSC. In PBC the extension of DR strongly correlates with clinical prognostic scores. A higher percentage of Sox9+ and K19+ cells characterized DR in PBC versus PSC. In cirrhotic-PSC, the HPC compartment showed signs of hepatocyte commitment. The study of the HPC niche indicated lower levels of laminin and NOTCH1 but higher expression of WNT pathway components in PSC compared to PBC. In conclusion, PSC and PBC are characterized by different patterns of HPC niche activation, reflecting the involvement of different portions of the biliary tree as primary target of damage. These aspects could have implications in the pathogenesis of cholangiopathies and could add prognostic value. [ABSTRACT FROM AUTHOR]

Published

2017

15. The Fas/Fas ligand apoptosis pathway underlies immunomodulatory properties of human biliary tree stem/progenitor cells.

Author

Riccio, Massimo, Carnevale, Gianluca, Cardinale, Vincenzo, Gibellini, Lara, De Biasi, Sara, Pisciotta, Alessandra, Carpino, Guido, Gentile, Raffaele, Berloco, Pasquale B., Brunelli, Roberto, Bastianelli, Carlo, Napoletano, Chiara, Cantafora, Alfredo, Cossarizza, Andrea, Gaudio, Eugenio, Alvaro, Domenico, and De Pol, Anto

Subjects

*MEMBRANE proteins, *APOPTOSIS, *IMMUNOREGULATION, *PROGENITOR cells, *BILIARY tract, *PANCREATIC diseases, *REGENERATIVE medicine, *T cells

Abstract

Background & Aims Human biliary tree stem/progenitor cells (hBTSCs) are multipotent epithelial stem cells, easily obtained from the biliary tree, with the potential for regenerative medicine in liver, biliary tree, and pancreas diseases. Recent reports indicate that human mesenchymal stem cells are able to modulate the T cell immune response. However, no information exists on the capabilities of hBTSCs to control the allogeneic response. The aims of this study were to evaluate FasL expression in hBTSCs, to study the in vitro interaction between hBTSCs and human lymphocytes, and the role of Fas/FasL modulation in inducing T cell apoptosis in hBTSCs/T cell co-cultures. Methods Fas and FasL expression were evaluated in situ and in vitro by immunofluorescence and western blotting. Co-cultures of hBTSCs with human leukocytes were used to analyze the influence of hBTSCs on lymphocytes activation and apoptosis. Results hBTSCs expressed HLA antigens and FasL in situ and in vitro . Western blot data demonstrated that hBTSCs constitutively expressed high levels of FasL that increased after co-culture with T cells. Confocal microscopy demonstrated that FasL expression was restricted to EpCAM + /LGR5 + cells. FACS analysis of T cells co-cultured with hBTSCs indicated that hBTSCs were able to induce apoptosis in activated CD4 + and CD8 + T cell populations. Moreover, the Fas receptor appears to be more expressed in T cells co-cultured with hBTSCs than in resting T cells. Conclusions Our data suggest that hBTSCs could modulate the T cell response through the production of FasL, which influences the lymphocyte Fas/FasL pathway by inducing “premature” apoptosis in CD4 + and CD8 + T cells. [ABSTRACT FROM AUTHOR]

Published

2014

16. Patch grafting, strategies for transplantation of organoids into solid organs such as liver.

Author

Zhang, Wencheng, Lanzoni, Giacomo, Hani, Homayoun, Overi, Diletta, Cardinale, Vincenzo, Simpson, Sean, Pitman, Wendy, Allen, Amanda, Yi, Xianwen, Wang, Xicheng, Gerber, David, Prestwich, Glenn, Lozoya, Oswaldo, Gaudio, Eugenio, Alvaro, Domenico, Tokaz, Debra, Dominguez-Bendala, Juan, Adin, Christopher, Piedrahita, Jorge, and Mathews, Kyle

Subjects

*ORGANOIDS, *BILIARY tract, *MESENCHYMAL stem cells, *PROGENITOR cells, *EPITHELIAL cells, *LIVER cells, *LIVER

Abstract

Epithelial cell therapies have been at an impasse because of inefficient methods of transplantation to solid organs. Patch grafting strategies were established enabling transplantation of ≥107th organoids/patch of porcine GFP+ biliary tree stem/progenitors into livers of wild type hosts. Grafts consisted of organoids embedded in soft (~100 Pa) hyaluronan hydrogels, both prepared in serum-free Kubota's Medium; placed against target sites; covered with a silk backing impregnated with more rigid hyaluronan hydrogels (~700 Pa); and use of the backing to tether grafts with sutures or glue to target sites. Hyaluronan coatings (~200–300 Pa) onto the serosal surface of the graft served to minimize adhesions with neighboring organs. The organ's clearance of hyaluronans enabled restoration of tissue-specific paracrine and systemic signaling, resulting in return of normal hepatic histology, with donor parenchymal cells uniformly integrated amidst host cells and that had differentiated to mature hepatocytes and cholangiocytes. Grafts containing donor mature hepatocytes, partnered with endothelia, and in the same graft biomaterials as for stem/progenitor organoids, did not engraft. Engraftment occurred if porcine liver-derived mesenchymal stem cells (MSCs) were co-transplanted with donor mature cells. RNA-seq analyses revealed that engraftment correlated with expression of matrix-metalloproteinases (MMPs), especially secreted isoforms that were found expressed strongly by organoids, less so by MSCs, and minimally, if at all, by adult cells. Engraftment with patch grafting strategies occurred without evidence of emboli or ectopic cell distribution. It was successful with stem/progenitor organoids or with cells with a source(s) of secreted MMP isoforms and offers significant potential for enabling cell therapies for solid organs. [ABSTRACT FROM AUTHOR]

Published

2021