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3. Double transgenic neonatal porcine islets as an alternative source for beta cell replacement therapy.

Author

Mourad NI, Perota A, Xhema D, Duchi R, Lagutina I, Galli C, and Gianello P

Subjects
Animals, Swine, Mice, Insulin Secretion, Animals, Newborn, Humans, Transplantation, Heterologous, Diabetes Mellitus, Type 1 therapy, Glucose metabolism, Islets of Langerhans Transplantation methods, Insulin-Secreting Cells metabolism, Insulin metabolism, Animals, Genetically Modified, Islets of Langerhans metabolism, Glucagon-Like Peptide 1 metabolism
Abstract

To be clinically efficient, beta cell replacement therapies such as pig islet xenotransplantation must ensure sufficient insulin secretion from grafted islets. While protection from host immune reaction is essential for islet engraftment and their subsequent functioning, intrinsic physiological properties of used cells are also a key factor. We have previously shown that islets with adenoviral-mediated expression of a dipeptidyl peptidase-resistant form of glucagon-like-peptide-1 (GLP-1) and a constitutively activated form of type 3 muscarinic receptor (M3R) in their beta cells have greatly improved insulin secretory response to glucose stimulation that is otherwise 4 to 10 times lower than human islets. Here, we describe in vitro characterization of the secretory function of pancreatic islets, derived from transgenic pigs expressing the GLP-1M3R cassette under the porcine insulin promoter (InsGLP-1M3R), and their usage to treat insulin-dependent diabetes in an immunodeficient mouse model. Our results show that InsGLP-1M3R islets isolated from neonatal and adult pigs secrete up to 15-fold more insulin in response to glucose stimulation compared to wild-type (WT) islets. They also proved to be more efficient in treating diabetes in a preclinical model as shown by a significantly higher percentage of normoglycemic recipients and higher porcine C-peptide levels up to 9 mo post implantation., Competing Interests: Competing interests statement:The authors declare no competing interest.

Published
2024
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4. Changes in glial cell activation and extracellular vesicles production precede the onset of disease symptoms in transgenic hSOD1 G93A pigs.

Author

Golia MT, Frigerio R, Pucci S, Sironi F, Margotta C, Pasetto L, Testori C, Berrone E, Ingravalle F, Chiari M, Gori A, Duchi R, Perota A, Bergamaschi L, D'Angelo A, Cagnotti G, Galli C, Corona C, Bonetto V, Bendotti C, Cretich M, Colombo SF, and Verderio C

Subjects
Mice, Animals, Humans, Swine, Superoxide Dismutase-1 genetics, Motor Neurons metabolism, Superoxide Dismutase genetics, Mice, Transgenic, Spinal Cord pathology, Neuroglia pathology, Biomarkers metabolism, Peptides metabolism, Disease Models, Animal, Amyotrophic Lateral Sclerosis pathology, Extracellular Vesicles
Abstract

SOD1 gene is associated with progressive motor neuron degeneration in the familiar forms of amyotrophic lateral sclerosis. Although studies on mutant human SOD1 transgenic rodent models have provided important insights into disease pathogenesis, they have not led to the discovery of early biomarkers or effective therapies in human disease. The recent generation of a transgenic swine model expressing the human pathological hSOD1 G93A gene, which recapitulates the course of human disease, represents an interesting tool for the identification of early disease mechanisms and diagnostic biomarkers. Here, we analyze the activation state of CNS cells in transgenic pigs during the disease course and investigate whether changes in neuronal and glial cell activation state can be reflected by the amount of extracellular vesicles they release in biological fluids. To assess the activation state of neural cells, we performed a biochemical characterization of neurons and glial cells in the spinal cords of hSOD1 G93A pigs during the disease course. Quantification of EVs of CNS cell origin was performed in cerebrospinal fluid and plasma of transgenic pigs at different disease stages by Western blot and peptide microarray analyses. We report an early activation of oligodendrocytes in hSOD1 G93A transgenic tissue followed by astrocyte and microglia activation, especially in animals with motor symptoms. At late asymptomatic stage, EV production from astrocytes and microglia is increased in the cerebrospinal fluid, but not in the plasma, of transgenic pigs reflecting donor cell activation in the spinal cord. Estimation of EV production by biochemical analyses is corroborated by direct quantification of neuron- and microglia-derived EVs in the cerebrospinal fluid by a Membrane Sensing Peptide enabled on-chip analysis that provides fast results and low sample consumption. Collectively, our data indicate that alteration in astrocytic EV production precedes the onset of disease symptoms in the hSOD G93A swine model, mirroring donor cell activation in the spinal cord, and suggest that EV measurements from the cells first activated in the ALS pig model, i.e. OPCs, may further improve early disease detection., Competing Interests: Declaration of competing interest The authors declare no conflict of interests., (Copyright © 2024 The Authors. Published by Elsevier Inc. All rights reserved.)

Published
2024
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5. LIS1, a glyco-humanized swine polyclonal anti-lymphocyte globulin, as a novel induction treatment in solid organ transplantation.

Author

Rousse J, Royer PJ, Evanno G, Lheriteau E, Ciron C, Salama A, Shneiker F, Duchi R, Perota A, Galli C, Cozzi E, Blancho G, Duvaux O, Brouard S, Soulillou JP, Bach JM, and Vanhove B

Subjects
Rabbits, Animals, Swine, Lymphocytes, Transplantation, Homologous, B-Lymphocytes, Organ Transplantation, Globulins
Abstract

Anti-thymocyte or anti-lymphocyte globulins (ATGs/ALGs) are immunosuppressive drugs used in induction therapies to prevent acute rejection in solid organ transplantation. Because animal-derived, ATGs/ALGs contain highly immunogenic carbohydrate xenoantigens eliciting antibodies that are associated with subclinical inflammatory events, possibly impacting long-term graft survival. Their strong and long-lasting lymphodepleting activity also increases the risk for infections. We investigated here the in vitro and in vivo activity of LIS1, a glyco-humanized ALG (GH-ALG) produced in pigs knocked out for the two major xeno-antigens αGal and Neu5Gc. It differs from other ATGs/ALGs by its mechanism of action excluding antibody-dependent cell-mediated cytotoxicity and being restricted to complement-mediated cytotoxicity, phagocyte-mediated cytotoxicity, apoptosis and antigen masking, resulting in profound inhibition of T-cell alloreactivity in mixed leucocyte reactions. Preclinical evaluation in non-human primates showed that GH-ALG dramatically reduced CD4 + (p=0.0005,***), CD8 + effector T cells (p=0.0002,***) or myeloid cells (p=0.0007,***) but not T-reg (p=0.65, ns) or B cells (p=0.65, ns). Compared with rabbit ATG, GH-ALG induced transient depletion (less than one week) of target T cells in the peripheral blood (<100 lymphocytes/L) but was equivalent in preventing allograft rejection in a skin allograft model. The novel therapeutic modality of GH-ALG might present advantages in induction treatment during organ transplantation by shortening the T-cell depletion period while maintaining adequate immunosuppression and reducing immunogenicity., Competing Interests: The authors of this manuscript have conflicts of interest to disclose: JR, P-JR, CC, GE, EL, FS, and BV are employees of Xenothera, a company developing glycol-humanized polyclonal antibodies as those described in this manuscript, and OD, J-PS, J-MB, and CG are cofounders of Xenothera. The remaining authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2023 Rousse, Royer, Evanno, Lheriteau, Ciron, Salama, Shneiker, Duchi, Perota, Galli, Cozzi, Blancho, Duvaux, Brouard, Soulillou, Bach and Vanhove.)

Published
2023
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6. Unexpected impairment of I Na underpins reentrant arrhythmias in a knock-in swine model of Timothy syndrome.

Author

Porta-Sánchez A, Mazzanti A, Tarifa C, Kukavica D, Trancuccio A, Mohsin M, Zanfrini E, Perota A, Duchi R, Hernandez-Lopez K, Jáuregui-Abularach ME, Pergola V, Fernandez E, Bongianino R, Tavazzani E, Gambelli P, Memmi M, Scacchi S, Pavarino LF, Franzone PC, Lentini G, Filgueiras-Rama D, Galli C, Santiago DJ, and Priori SG

Abstract

Timothy syndrome 1 (TS1) is a multi-organ form of long QT syndrome associated with life-threatening cardiac arrhythmias, the organ-level dynamics of which remain unclear. In this study, we developed and characterized a novel porcine model of TS1 carrying the causative p.Gly406Arg mutation in CACNA1C , known to impair Ca V 1.2 channel inactivation. Our model fully recapitulated the human disease with prolonged QT interval and arrhythmic mortality. Electroanatomical mapping revealed the presence of a functional substrate vulnerable to reentry, stemming from an unforeseen constitutional slowing of cardiac activation. This signature substrate of TS1 was reliably identified using the reentry vulnerability index, which, we further demonstrate, can be used as a benchmark for assessing treatment efficacy, as shown by testing of multiple clinical and preclinical anti-arrhythmic compounds. Notably, in vitro experiments showed that TS1 cardiomyocytes display Ca 2+ overload and decreased peak I Na current, providing a rationale for the arrhythmogenic slowing of impulse propagation in vivo., Competing Interests: Competing interestsA.P., R.D. and C.G. are employees of Avantea (Cremona, Italy). All other authors declare no conflict of interest., (© The Author(s) 2023.)

Published
2023
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