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8. Fyn is Involved in Erythropoietin Signaling Pathway and Interfaces Oxidation to Regulate Erythropoiesis

Author

Beneduce, E, primary, Matte, A, additional, De Falco, L, additional, Mbiandjeu, TSC, additional, Chiabrando, D, additional, Tolosano, E, additional, Federti, E, additional, Petrillo, S, additional, Mohandas, N, additional, Siciliano, A, additional, Babu, AW, additional, Menon, V, additional, Ghaffari, S, additional, Iolascon, A, additional, and De Franceschi, L, additional

Published
2018
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10. A role for hemopexin in oligodendrocyte differentiation and myelin formation

Author

Morello, N, Bianchi, F, Marmiroli, P, Tonoli, E, RODRIGUEZ MENENDEZ, V, Silengo, L, Cavaletti, G, Vercelli, A, Altruda, F, Tolosano, E, Bianchi, FT, Tolosano, E., MARMIROLI, PAOLA LORENA, RODRIGUEZ MENENDEZ, VIRGINIA, CAVALETTI, GUIDO ANGELO, Morello, N, Bianchi, F, Marmiroli, P, Tonoli, E, RODRIGUEZ MENENDEZ, V, Silengo, L, Cavaletti, G, Vercelli, A, Altruda, F, Tolosano, E, Bianchi, FT, Tolosano, E., MARMIROLI, PAOLA LORENA, RODRIGUEZ MENENDEZ, VIRGINIA, and CAVALETTI, GUIDO ANGELO

Abstract

Myelin formation and maintenance are crucial for the proper function of the CNS and are orchestrated by a plethora of factors including growth factors, extracellular matrix components, metalloproteases and protease inhibitors. Hemopexin (Hx) is a plasma protein with high heme binding affinity, which is also locally produced in the CNS by ependymal cells, neurons and glial cells. We have recently reported that oligodendrocytes (OLs) are the type of cells in the brain that are most susceptible to lack of Hx, as the number of iron-overloaded OLs increases in Hx-null brain, leading to oxidative tissue damage. In the current study, we found that the expression of the Myelin Basic Protein along with the density of myelinated fibers in the basal ganglia and in the motor and somatosensory cortex of Hx-null mice were strongly reduced starting at 2 months and progressively decreased with age. Myelin abnormalities were confirmed by electron microscopy and, at the functional level, resulted in the inability of Hx-null mice to perform efficiently on the Rotarod. It is likely that the poor myelination in the brain of Hx-null mice was a consequence of defective maturation of OLs as we demonstrated that the number of mature OLs was significantly reduced in mutant mice whereas that of precursor cells was normal. Finally, in vitro experiments showed that Hx promotes OL differentiation. Thus, Hx may be considered a novel OL differentiation factor and the modulation of its expression in CNS may be an important factor in the pathogenesis of human neurodegenerative disorders.

Published
2011

11. Lack of haptoglobin affects iron transport across duodenum by modulating ferroportin expression

Author

Marro, S, Barisani, D, Chiabrando, D, Fagoonee, S, Muckenthaler, M, Stolte, J, Meneveri, R, Haile, D, Silengo, L, Altruda, F, Tolosano, E, Muckenthaler, MU, Tolosano, E., BARISANI, DONATELLA, MENEVERI, RAFFAELLA, Marro, S, Barisani, D, Chiabrando, D, Fagoonee, S, Muckenthaler, M, Stolte, J, Meneveri, R, Haile, D, Silengo, L, Altruda, F, Tolosano, E, Muckenthaler, MU, Tolosano, E., BARISANI, DONATELLA, and MENEVERI, RAFFAELLA

Abstract

Background & Aims: Haptoglobin is an acute phase protein responsible for the recovery of free hemoglobin from plasma. Haptoglobin-mill mice were previously shown to have an altered heme-iron distribution, thus reproducing what occurs in humans in cases of congenital or acquired anhaptoglobinemia. Here, we report the analysis of iron homeostasis in haptoglobin-mill mice. Methods: Iron absorption was measured in tied-off duodenal segments. Iron stores were evaluated on tissue homogenates and sections. The expression of molecules involved in iron homeostasis was analyzed at the protein and messenger RNA levels both in mice and in murine RAW264.7 macrophages stimulated in vitro with hemoglobin. Results: Analysis of intestinal iron transport reveals that haptoglobin-null mice export significantly more iron from the duodenal mucosa to plasma compared with control counterparts. Increased iron export from the duodenum correlates with increased duodenal expression of ferroportin, both at the protein and messenger RNA levels, whereas hepatic hepcidin expression remains unchanged. Up-regulation of the ferroportin transcript, but not of the protein, also occurs in haptoglobin-null spleen macrophages, which accumulate free hemoglobin-derived iron. Finally, we demonstrate that hemoglobin induces ferroportin expression in RAW264.7 cells. Conclusions: Taking together these data, we suggest that haptoglobin, by controlling plasma levels of hemoglobin, participates in the regulation of ferroportin expression, thus contributing to the regulation of iron transfer from duodenal mucosa to plasma.

Published
2007

12. Biologia e Genetica

Author

De Leo, G., Fasano, S., Ginelli, E., Alessandro, R., Altruda, F., Amato, A., Antognelli, Cinzia, Barisani, D., Brancolini, C., Defilippi, P., Delrio, G., Di Bella, M. A., Dolcemascolo, G., Fontana, S., Gianguzza, M., Hirsch, E., Meneveri, R., Mezzasoma, Letizia, Minucci, S., Mirisola, M., Modesti, A., Pierantoni, R., Purrello, M., Seidita, G., Sidoti, A., Talesa, Vincenzo Nicola, Tarone, G., Tognon, M., and Tolosano, E.

Published
2013

15. The heme exporter Flvcr1 regulates expansion and differentiation of committed erythroid progenitors by controlling intracellular heme accumulation

Author

Mercurio, S., primary, Petrillo, S., additional, Chiabrando, D., additional, Bassi, Z. I., additional, Gays, D., additional, Camporeale, A., additional, Vacaru, A., additional, Miniscalco, B., additional, Valperga, G., additional, Silengo, L., additional, Altruda, F., additional, Baron, M. H., additional, Santoro, M. M., additional, and Tolosano, E., additional

Published
2015
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17. Plasma haptoglobin modulates iron loading

Author

Fagoonee, S., Gburek, J., Hisch, E., Marro, S., Moestrup, Søren Kragh, Laurberg, J. M., Christensen, Erik Ilsø, Silengo, L., Altruda, F., and Tolosano, E.

Published
2005

21. Inhibition of neutrophil migration by hemopexin leads to increased mortality due to sepsis in mice.

Author

Spiller F, Costa C, Souto FO, Vinchi F, Mestriner FL, Laure HJ, Alves-Filho JC, Freitas A, Rosa JC, Ferreira SH, Altruda F, Hirsch E, Greene LJ, Tolosano E, and Cunha FQ

Abstract

RATIONALE: The reduction of neutrophil migration to the bacterial focus is associated with poor outcome in sepsis. OBJECTIVES: The objective of this study was to identify soluble substances in the blood of septic mice that inhibit neutrophil migration. METHODS: A pool of serum obtained from mice 2 hours after the induction of severe sepsis by cecal ligation and puncture inhibited the neutrophil migration. The proteins with inhibitory activity on neutrophil migration were isolated by Blue-Sepharose chromatography, high-performance liquid chromatography, and electrophoresis, and identified by mass spectrometry. MEASUREMENTS AND MAIN RESULTS: Hemopexin was identified as the serum component responsible for the inhibition of neutrophil migration. In sepsis, the pretreatment of wild-type mice with hemopexin inhibited neutrophil migration to the focus of infection and decreased the survival rate from 87.5 to 50.0%. Hemopexin-null mice subjected to severe sepsis presented normal neutrophil migration, low bacteremia, and an improvement of 40% in survival rate. Moreover, hemopexin inhibited the neutrophil chemotaxis response evoked by C5a or macrophage inflammatory protein-2 and induced a reduction of CXCR2 and L-selectin as well as the up-regulation of CD11b expression in neutrophil membranes. The inhibitory effect of hemopexin on neutrophil chemotaxis was prevented by serine protease inhibitors or ATP. In addition, serum levels of ATP were decreased 2 hours after severe sepsis. CONCLUSIONS: These data demonstrate for the first time the inhibitory role of hemopexin in neutrophil migration during sepsis and suggest that the therapeutic inhibition of hemopexin or its protease activity could improve neutrophil migration to the focus of infection and survival in sepsis. [ABSTRACT FROM AUTHOR]

Published
2011
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23. Analysis of regulatory regions of the ciliary neutrophic factor gene in transgenic mice

Author

Stefanuto G, Cerrato M, Chiocchetti A, Tolosano E, Emilio Hirsch, Cristofori R, Silengo L, and Altruda F

Subjects
Base Sequence, Histocytochemistry, Molecular Sequence Data, Mice, Transgenic, Nerve Tissue Proteins, beta-Galactosidase, Sciatic Nerve, Recombinant Proteins, Mice, Lac Operon, Genes, Regulator, Escherichia coli, Animals, Humans, Ciliary Neurotrophic Factor, Schwann Cells
Abstract

In order to study the regulatory regions of the human ciliary neurotrophic factor (CNTF) gene we made constructs containing sequences upstream and downstream of CNTF coding regions and the lacZ gene and analysed their expression in transgenic mice. We show that 240 bp upstream of the translation start codon are sufficient for the transcription of the lacZ gene. A further 4 kb upstream sequence is required for the expression of the transgene in Schwann cells. These two upstream regions together with a 2 kb downstream fragment drive high level of expression of the lacZ gene in the sciatic nerve. Our results indicate that these three fragments contain regulatory regions able to mimic the CNTF expression pattern in the mouse peripheral nervous system.

24. Hemoglobin - a novel ligand of hepatocyte ectopic F1-ATPase

Author

Jakub Gburek, Boguslawa Konopska, Katarzyna Juszczyńska, Agnieszka Piwowar, Piotr Dziegiel, Sylwia Borska, Tolosano, E., and Krzysztof Gołąb

Subjects
Hemoglobins, Proton-Translocating ATPases, Animals, Cell Membrane, Cells, Cultured, Hep G2 Cells, Hepatocytes, Humans, Ligands, Rats, Cultured, Cells
Abstract

The liver is largely responsible for free hemoglobin uptake, but the molecular mechanism of this phenomenon has never been revealed. This paper presents the results of the study on hemoglobin binding components of the hepatocyte membrane that were purified using affinity chromatography on a hemoglobin matrix and identified by peptide mass fingerprinting. Both F1-ATPase alpha and beta subunits were retrieved. The binding was confirmed via an intrinsic fluorescence quenching study using a purified recombinant F1-ATPase beta subunit, and the dissociation constant for the complex was estimated from the saturation binding curve (Kd = 7.5 x 10(-7) M). The results indicate that haemoglobin binds to hepatocyte ectopic F1-ATPase. We suggested the plausible role of the receptor in endocytosis of haemoglobin by the hepatocyte.

25. GENETICA DEL CANCRO

Author

ALESSANDRO, Riccardo, DE LEO, Giacomo, DE LEO,G, FASANO,S, GINELLI, E, ALESSANDRO,R, ALTRUDA,F, AMATO,A, ANTOGNELLI,C, BARISANI,D, BRANCOLINI,C, DE FILIPPI,P, DELRIO,G, DOLCEMASCOLO,G, FONTANA,S, GIANGUZZA,M, HIRSCH,E, MENEVERI,R, MEZZASOMA,L, MINUCCI,S, MODESTI,A, PIERANTONI,R, PURRELLO,M, SEIDITA,G, SIDOTI,A, TALESA,VN, TARONE,G, TOGNON,M, TOLOSANO,E, GINELLI,E, ALESSANDRO R., ALTRUDA F., AMATO A., BRANCOLINI C., DE LEO G., DEFILIPPI P., DELRIO G., DI BELLA MA., DOLCEMASCOLO G., FASANO S., FONTANA S., GIANGUZZA M., GINELLI E., HIRSCH E., MENEVERI R., MINUCCI S., MIRISOLA M., MODESTI A., PIERANTONI R., PURRELLO M., SEIDITA G., SIDOTI A., TARONE G., TOGNON M., TOLOSANO E., ALESSANDRO R, and DE LEO G

Subjects
BIOLOGIA CANCRO, GENETICA MOLECOLARE, Settore BIO/13 - Biologia Applicata, cancerogenesi, NEOPLASIA, mutazioni, ONCOGENI, Cancro, ONCOSOPPRESSORI
Published
2013

26. Funzione cellulare e traffico intracellulare

Author

TARONE,G, DE FILIPPI,P, FONTANA, Simona, ALESSANDRO, Riccardo, DE LEO, Giacomo, DE LEO, G, GINELLI, E, FASANO, S, TARONE, G, DE LEO,G, ALESSANDRO, R, FONTANA, S, DEFILIPPI, P, ALESSANDRO R., ALTRUDA F., AMATO A., BRANCOLINI C., DE LEO G., DEFILIPPI P., DELRIO G., DI BELLA MA., DOLCEMASCOLO G., FASANO S., FONTANA S., GIANGUZZA M., GINELLI E., HIRSCH E., MENEVERI R., MINUCCI S., MIRISOLA M., MODESTI A., PIERANTONI R., PURRELLO M., SEIDITA G., SIDOTI A., TARONE G., TOGNON M., TOLOSANO E., TARONE G, DE FILIPPI P, FONTANA S, ALESSANDRO R, DE LEO G, FASANO,S, ALESSANDRO,R, ALTRUDA,F, AMATO,A, ANTOGNELLI,C, BARISANI,D, BRANCOLINI,C, DE FILIPPI,P, DELRIO,G, DOLCEMASCOLO,G, FONTANA,S, GIANGUZZA,M, HIRSCH,E, MENEVERI,R, MEZZASOMA,L, MINUCCI,S, MODESTI,A, PIERANTONI,R, PURRELLO,M, SEIDITA,G, SIDOTI,A, TALESA,VN, TARONE,G, TOGNON,M, and TOLOSANO,E

Subjects
MEMBRANE BIOLOGICHE, TRASPORTO DI MEMBRANA, Settore BIO/13 - Biologia Applicata, BIOLOGIA CELLULARE, ADESIONE CELLULARE
Published
2008

27. Le basi dell'organizzazione biologica

Author

DI BELLA, Maria Antonietta, FONTANA, Simona, ALESSANDRO, Riccardo, SEIDITA, Gregorio, DE LEO, Giacomo, ALESSANDRO R., ALTRUDA F., AMATO A., BRANCOLINI C., DE LEO G., DEFILIPPI P., DELRIO G., DI BELLA MA., DOLCEMASCOLO G., FASANO S., FONTANA S., GIANGUZZA M., GINELLI E., HIRSCH E., MENEVERI R., MINUCCI S., MIRISOLA M., MODESTI A., PIERANTONI R., PURRELLO M., SEIDITA G., SIDOTI A., TARONE G., TOGNON M., TOLOSANO E., DI BELLA MA, FONTANA S, ALESSANDRO R, SEIDITA G, DE LEO G, DE LEO,G, FASANO,S, GINELLI, E, ALESSANDRO,R, ALTRUDA,F, AMATO,A, ANTOGNELLI,C, BARISANI,D, BRANCOLINI,C, DE FILIPPI,P, DELRIO,G, DI BELLA, MA, DOLCEMASCOLO,G, FONTANA,S, GIANGUZZA,M, HIRSCH,E, MENEVERI,R, MEZZASOMA,L, MINUCCI,S, MIRISOLA,MG, MODESTI,A, PIERANTONI,R, PURRELLO,M, SEIDITA,G, SIDOTI,A, TALESA,VN, TARONE,G, TOGNON,M, TOLOSANO,E, DI BELLA,MA, SEIDITA, G, DE LEO, G, GINELLI,E, FONTANA, S, and ALESSANDRO, R

Subjects
Settore BIO/13 - Biologia Applicata, BIOLOGIA, BIOLOGIA GENERALE, CELLULA, EVOLUZIONE
Published
2007

28. Hemoglobin and heme scavenging

Author

Paolo Ascenzi, Alessio Bocedi, Paolo Visca, Emanuela Tolosano, Fiorella Altruda, Tiziana Beringhelli, Mauro Fasano, Ascenzi, Paolo, Bocedi, A, Visca, Paolo, Altruda, F, Tolosano, E, Beringhelli, T, and Fasano, M.

Subjects
hemopexin, haptoglobin, heme transport, Hemeprotein, Clinical Biochemistry, Heme, Biochemistry, Cofactor, Hemoglobins, chemistry.chemical_compound, Genetics, Animals, Humans, Molecular Biology, chemistry.chemical_classification, Membrane Glycoproteins, Haptoglobins, biology, Chemistry, Hemopexin, Cell Biology, Heme transport, Conjugated protein, Myoglobin, biology.protein, Hemoglobin, Trypsin Inhibitor, Kunitz Soybean
Abstract

Release of hemoglobin into plasma is a physiological phenomenon associated with intravascular hemolysis. In plasma, stable haptoglobin-hemoglobin complexes are formed and these are subsequently delivered to the reticulo-endothelial system by CD163 receptor-mediated endocytosis. Heme arising from the degradation of hemoglobin, myoglobin, and of enzymes with heme prosthetic groups could be delivered in plasma. Albumin, haptoglobin, hemopexin, and high and low density lipoproteins cooperate to trap the plasma heme, thereby ensuring its complete clearance. Then hemopexin releases the heme into hepatic parenchymal cells only after internalization of the hemopexin-heme complex by CD91 receptor-mediated endocytosis. Moreover, alpha1-microglobulin contributes to heme degradation by a still unknown mechanism, with the concomitant formation of heterogeneous yellow-brown kynurenine-derived chromophores which are very tightly bound to amino acid residues close to the rim of the lipocalin pocket. During hemoglobin synthesis, the erythroid alpha-chain hemoglobin-stabilizing protein specifically binds free alpha-hemoglobin subunits limiting the free protein toxicity. Although highly toxic because capable of catalyzing free radical formation, heme is also a major and readily available source of iron for pathogenic organisms. Gram-negative bacteria pick up the heme-bound iron through the secretion of a hemophore that takes up either free heme or heme bound to heme-proteins and transports it to a specific receptor, which, in turn, releases the heme and hence iron into the bacterium. Here, hemoglobin and heme trapping mechanisms are summarized.

Published
2005
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30. MUTAZIONI: TIPI, ORIGINI, CONSEGUENZE

Author

DE LEO, Giacomo, DI BELLA, Maria Antonietta, BARISANI,D, TOGNON,M, DE LEO,G, FASANO,S, GINELLI, E, ALESSANDRO,R, ALTRUDA,F, AMATO,A, ANTOGNELLI,C, BARISANI,D, BRANCOLINI,C, DE FILIPPI,P, DELRIO,G, DI BELLA, MA, DOLCEMASCOLO,G, FONTANA,S, GIANGUZZA,M, HIRSCH,E, MENEVERI,R, MEZZASOMA,L, MINUCCI,S, MIRISOLA,MG, MODESTI,A, PIERANTONI,R, PURRELLO,M, SEIDITA,G, SIDOTI,A, TALESA,VN, TARONE,G, TOGNON,M, and TOLOSANO,E

Subjects
RICOMBINAZIONE, RIPARAZIONE DNA, GENETICA MOLECOLARE, TECNOLOGIE GENETICHE, CARIOTIPO
Published
2013

31. GENETICA UMANA

Author

DE LEO, Giacomo, DI BELLA, Maria Antonietta, SEIDITA, Gregorio, BARISANI,D, TOGNON,M, DE LEO,G, FASANO,S, GINELLI, E, ALESSANDRO,R, ALTRUDA,F, AMATO,A, ANTOGNELLI,C, BARISANI,D, BRANCOLINI,C, DE FILIPPI,P, DELRIO,G, DI BELLA, MA, DOLCEMASCOLO,G, FONTANA,S, GIANGUZZA,M, HIRSCH,E, MENEVERI,R, MEZZASOMA,L, MINUCCI,S, MIRISOLA,MG, MODESTI,A, PIERANTONI,R, PURRELLO,M, SEIDITA,G, SIDOTI,A, TALESA,VN, TARONE,G, TOGNON,M, and TOLOSANO,E

Subjects
EREDITA', GENETICA IMMUNOGLOBULINE
Published
2013

32. LA GENETICA GENERALE

Author

DE LEO, Giacomo, DI BELLA, Maria Antonietta, MIRISOLA, Mario Giuseppe, DE LEO,G, FASANO,S, GINELLI, E, ALESSANDRO,R, ALTRUDA,F, AMATO,A, ANTOGNELLI,C, BARISANI,D, BRANCOLINI,C, DE FILIPPI,P, DELRIO,G, DOLCEMASCOLO,G, FONTANA,S, GIANGUZZA,M, HIRSCH,E, MENEVERI,R, MEZZASOMA,L, MINUCCI,S, MIRISOLA, MG, MODESTI,A, PIERANTONI,R, PURRELLO,M, SEIDITA,G, SIDOTI,A, TALESA,VN, TARONE,G, TOGNON,M, TOLOSANO,E, DI BELLA, MA, and MIRISOLA,MG

Subjects
Settore BIO/13 - Biologia Applicata, GENETICA, GENETICA AMBIENTALE
Published
2013

33. A role for hemopexin in oligodendrocyte differentiation and myelin formation

Author

Virginia Rodriguez Menendez, Emanuela Tolosano, Paola Marmiroli, Elisabetta Tonoli, Fiorella Altruda, Noemi Morello, Alessandro Vercelli, F. Bianchi, Guido Cavaletti, Lorenzo Silengo, Morello, N, Bianchi, F, Marmiroli, P, Tonoli, E, RODRIGUEZ MENENDEZ, V, Silengo, L, Cavaletti, G, Vercelli, A, Altruda, F, and Tolosano, E

Subjects
Pathology, Anatomy and Physiology, Cellular differentiation, lcsh:Medicine, Myelin, Mice, Hemopexin, Molecular Cell Biology, lcsh:Science, Cells, Cultured, Myelin Sheath, Mice, Knockout, Multidisciplinary, biology, Stem Cells, Brain, Cell Differentiation, Animal Models, Immunohistochemistry, Cell biology, Oligodendroglia, Eukaryotic Cells, medicine.anatomical_structure, Neurology, Medicine, Cellular Types, Stem cell, Research Article, Human, medicine.medical_specialty, Histology, Multiple Sclerosis, Mice, 129 Strain, Heme binding, Blotting, Western, Motor Activity, Neurological System, Model Organisms, Developmental Neuroscience, Microscopy, Electron, Transmission, Stem Cell, Neuroglial Development, Precursor cell, Genetics, medicine, Animals, Humans, Biology, Animal, lcsh:R, Oligodendrocyte differentiation, Ensheathing Cells, Demyelinating Disorders, Rats, Myelin basic protein, biology.protein, Rat, lcsh:Q, Gene Function, Developmental Biology, Neuroscience
Abstract

Myelin formation and maintenance are crucial for the proper function of the CNS and are orchestrated by a plethora of factors including growth factors, extracellular matrix components, metalloproteases and protease inhibitors. Hemopexin (Hx) is a plasma protein with high heme binding affinity, which is also locally produced in the CNS by ependymal cells, neurons and glial cells. We have recently reported that oligodendrocytes (OLs) are the type of cells in the brain that are most susceptible to lack of Hx, as the number of iron-overloaded OLs increases in Hx-null brain, leading to oxidative tissue damage. In the current study, we found that the expression of the Myelin Basic Protein along with the density of myelinated fibers in the basal ganglia and in the motor and somatosensory cortex of Hx-null mice were strongly reduced starting at 2 months and progressively decreased with age. Myelin abnormalities were confirmed by electron microscopy and, at the functional level, resulted in the inability of Hx-null mice to perform efficiently on the Rotarod. It is likely that the poor myelination in the brain of Hx-null mice was a consequence of defective maturation of OLs as we demonstrated that the number of mature OLs was significantly reduced in mutant mice whereas that of precursor cells was normal. Finally, in vitro experiments showed that Hx promotes OL differentiation. Thus, Hx may be considered a novel OL differentiation factor and the modulation of its expression in CNS may be an important factor in the pathogenesis of human neurodegenerative disorders.

Published
2011

34. Elementi di Biologia dello sviluppo

Author

GIANGUZZA, Mario, DOLCEMASCOLO, Giuseppe, DE LEO, G, GINELLI, E, FASANO, S978, GIANGUZZA, M, DOLCEMASCOLO, G, De Leo G, Fasano S, Ginelli E, Gianguzza M: Dolcemascolo G, Gianguzza M, Dolcemascolo G, ALESSANDRO R., ALTRUDA F., AMATO A., BRANCOLINI C., DE LEO G., DEFILIPPI P., DELRIO G., DI BELLA M.A., DOLCEMASCOLO G., FASANO S., FONTANA S., GIANGUZZA M., GINELLI E., HIRSCH E., MENEVERI R., MINUCCI S., MIRISOLA M., MODESTI A., PIERANTONI R., PURRELLO M., SEIDITA G., SIDOTI A., TARONE G., TOGNON M., TOLOSANO E., GIANGUZZA M, and DOLCEMASCOLO G

Subjects
Biologia dello sviluppo, Settore BIO/13 - Biologia Applicata
Published
2009

35. Genetica generale e umana

Author

DE LEO, Giacomo, DI BELLA, Maria Antonietta, MIRISOLA, Mario Giuseppe, TOGNON M, ALESSANDRO R., ALTRUDA F., AMATO A., BRANCOLINI C., DE LEO G., DEFILIPPI P., DELRIO G., DI BELLA MA., DOLCEMASCOLO G., FASANO S., FONTANA S., GIANGUZZA M., GINELLI E., HIRSCH E., MENEVERI R., MINUCCI S., MIRISOLA M., MODESTI A., PIERANTONI R., PURRELLO M., SEIDITA G., SIDOTI A., TARONE G., TOGNON M., TOLOSANO E., DE LEO G, DI BELLA MA, TOGNON M, and MIRISOLA M

Abstract

libro di testo

Published
2007

36. Microarray and large-scale in silico-based identification of genes functionally related to Haptoglobin and/or Hemopexin

Author

Sharmila Fagoonee, Lorenzo Silengo, Emanuela Tolosano, Ferdinando Di Cunto, Paolo Gasparini, Diego Vozzi, Maurizio Pellegrino, Fiorella Altruda, Stefano Volinia, Fagoonee, S, DI CUNTO, F, Vozzi, Diego, Volinia, S, Pellegrino, M, Gasparini, Paolo, Silengo, L, Atruda, F, and Tolosano, E.

Subjects
hemopexin, Microarray, In silico, Computational biology, Mice, Complementary DNA, Genetics, polycyclic compounds, Animals, skin and connective tissue diseases, Molecular Biology, Gene, Oligonucleotide Array Sequence Analysis, Mice, Knockout, Haptoglobins, biology, Reverse Transcriptase Polymerase Chain Reaction, Microarray analysis techniques, Haptoglobin, Acute-phase protein, food and beverages, Hemopexin, Cell Biology, General Medicine, haptoglobin, Mice, Inbred C57BL, body regions, biology.protein, microarray
Abstract

Haptoglobin and Hemopexin are plasma acute phase proteins that bind with high-affinity hemoglobin and heme, respectively. They play a key role in the protection against oxidative stress and inflammation. To dissect in more detail the mechanism of action of Haptoglobin and Hemopexin, it is important to identify their downstream effectors as well as genes functionally related to them. To this end, we performed a cDNA microarray analysis to compare gene expression profiles of the liver of Haptoglobin and Hemopexin single and double null mice to that of wild-type controls. Then, to extract the best candidates considered to be functionally related to Haptoglobin and/or Hemopexin from microarray-derived gene lists, we used a bioinformatic approach consisting in the screening of published microarray data for genes showing coexpression with Haptoglobin or Hemopexin. This strategy allowed us to identify a group of genes coexpressed with Haptoglobin or Hemopexin and transcriptionally modulated by their lack. These genes present a high probability to be functionally related to Haptoglobin and Hemopexin. Based on literature data, we picked up from this group of genes the ras suppressor Rsu1, the member of the G-protein signal transduction family Gnai2, and the cytokine Mdk as the best candidates mediating the anti-inflammatory action of Haptoglobin and Hemopexin.

Published
2006
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37. Lack of Haptoglobin Affects Iron Transport Across Duodenum by Modulating Ferroportin Expression

Author

Lorenzo Silengo, Fiorella Altruda, Jens Stolte, Samuele Marro, Emanuela Tolosano, Martina U. Muckenthaler, David Haile, Sharmila Fagoonee, Deborah Chiabrando, Donatella Barisani, Raffaella Meneveri, Marro, S, Barisani, D, Chiabrando, D, Fagoonee, S, Muckenthaler, M, Stolte, J, Meneveri, R, Haile, D, Silengo, L, Altruda, F, and Tolosano, E

Subjects
medicine.medical_specialty, haptoglobin, iron, ferroportin, Duodenum, iron overload, haptoglobin, ferroportin, Ferroportin, Kidney, Intestinal absorption, Cell Line, Hemoglobins, Mice, Intestinal mucosa, Hepcidin, Internal medicine, medicine, Animals, Homeostasis, ferroportin expression, RNA, Messenger, Intestinal Mucosa, Cation Transport Proteins, Mice, Knockout, chemistry.chemical_classification, Haptoglobins, Hepatology, biology, Macrophages, Haptoglobin, Transferrin, BIO/13 - BIOLOGIA APPLICATA, Gastroenterology, food and beverages, DMT1, Molecular biology, Up-Regulation, Mice, Inbred C57BL, Endocrinology, Intestinal Absorption, Liver, chemistry, biology.protein, Hemoglobin, Spleen
Abstract

Background & Aims: Haptoglobin is an acute phase protein responsible for the recovery of free hemoglobin from plasma. Haptoglobin-mill mice were previously shown to have an altered heme-iron distribution, thus reproducing what occurs in humans in cases of congenital or acquired anhaptoglobinemia. Here, we report the analysis of iron homeostasis in haptoglobin-mill mice. Methods: Iron absorption was measured in tied-off duodenal segments. Iron stores were evaluated on tissue homogenates and sections. The expression of molecules involved in iron homeostasis was analyzed at the protein and messenger RNA levels both in mice and in murine RAW264.7 macrophages stimulated in vitro with hemoglobin. Results: Analysis of intestinal iron transport reveals that haptoglobin-null mice export significantly more iron from the duodenal mucosa to plasma compared with control counterparts. Increased iron export from the duodenum correlates with increased duodenal expression of ferroportin, both at the protein and messenger RNA levels, whereas hepatic hepcidin expression remains unchanged. Up-regulation of the ferroportin transcript, but not of the protein, also occurs in haptoglobin-null spleen macrophages, which accumulate free hemoglobin-derived iron. Finally, we demonstrate that hemoglobin induces ferroportin expression in RAW264.7 cells. Conclusions: Taking together these data, we suggest that haptoglobin, by controlling plasma levels of hemoglobin, participates in the regulation of ferroportin expression, thus contributing to the regulation of iron transfer from duodenal mucosa to plasma.

Published
2007
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38. Extracellular Vesicle-Enclosed Oxidative Stress- and Inflammation-Related microRNAs as Potential Biomarkers of Vitamin D Responsivity: A Pilot Study on Inflammatory Bowel Disease Patients with or without COVID-19.

Author

Ammirata G, Arigoni M, Licastro D, Caviglia GP, Disabato M, Zubair G, Bezzio C, Saibeni S, De Nicolò A, Cusato J, Palermiti A, Manca A, Tolosano E, Cozzini S, Mancini M, Altruda F, D'Avolio A, Ribaldone DG, Ala U, and Fagoonee S

Abstract

The relationship between serum 25-hydroxyvitamin D (25(OH)D) levels, genomic response to vitamin D (Vit.D), and positivity to SARS-CoV-2 remains understudied. In this pilot study, during the follow-up of patients with Inflammatory Bowel Disease (IBD) and COVID-19, we investigated this issue by analyzing the molecular contents of serum extracellular vesicles (EVs) from six groups of IBD patients (n = 32), classified according to anti-SARS-CoV-2 status, 25(OH)D level, and Vit.D supplementation, by small RNA-seq. This analysis revealed differentially expressed miRNAs, PIWI-RNA, transfer RNA, small nucleolar RNAs, and protein-coding RNAs in the EVs obtained from these cohorts of IBD patients. Experimental validation evidenced a statistically significant increase in miR30d-5p, miR150-5p, Let-7f-5p, and Let-7a-5p in the anti-SARS-CoV-2-positive and low 25(OH)D and Vit.D supplemented groups with respect to the non-Vit.D supplemented group, indicating their responsiveness to Vit.D treatment. Bioinformatics analysis highlighted the regulation of these validated miRNAs by oxidative stress and inflammation, hallmarks of IBD and COVID-19. Our study reports an unprecedented panel of circulating EV-enclosed inflammation- and oxidative stress-related miRNAs, the potentiality of which, as biomarkers for Vit.D responsivity in IBD patients, needs to be explored in future studies on larger cohorts in order to allow clinicians to optimize current treatment strategies upon viral infection.

Published
2024
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39. Dysregulation of FLVCR1a-dependent mitochondrial calcium handling in neural progenitors causes congenital hydrocephalus.

Author

Bertino F, Mukherjee D, Bonora M, Bagowski C, Nardelli J, Metani L, Zanin Venturini DI, Chianese D, Santander N, Salaroglio IC, Hentschel A, Quarta E, Genova T, McKinney AA, Allocco AL, Fiorito V, Petrillo S, Ammirata G, De Giorgio F, Dennis E, Allington G, Maier F, Shoukier M, Gloning KP, Munaron L, Mussano F, Salsano E, Pareyson D, di Rocco M, Altruda F, Panagiotakos G, Kahle KT, Gressens P, Riganti C, Pinton PP, Roos A, Arnold T, Tolosano E, and Chiabrando D

Subjects
Animals, Humans, Mice, Inositol 1,4,5-Trisphosphate Receptors metabolism, Inositol 1,4,5-Trisphosphate Receptors genetics, Neurogenesis genetics, Calcium metabolism, Hydrocephalus metabolism, Hydrocephalus genetics, Hydrocephalus pathology, Membrane Transport Proteins metabolism, Membrane Transport Proteins genetics, Mitochondria metabolism, Neural Stem Cells metabolism, Neural Stem Cells pathology, Receptors, Virus metabolism, Receptors, Virus genetics
Abstract

Congenital hydrocephalus (CH), occurring in approximately 1/1,000 live births, represents an important clinical challenge due to the limited knowledge of underlying molecular mechanisms. The discovery of novel CH genes is thus essential to shed light on the intricate processes responsible for ventricular dilatation in CH. Here, we identify FLVCR1 (feline leukemia virus subgroup C receptor 1) as a gene responsible for a severe form of CH in humans and mice. Mechanistically, our data reveal that the full-length isoform encoded by the FLVCR1 gene, FLVCR1a, interacts with the IP3R3-VDAC complex located on mitochondria-associated membranes (MAMs) that controls mitochondrial calcium handling. Loss of Flvcr1a in mouse neural progenitor cells (NPCs) affects mitochondrial calcium levels and energy metabolism, leading to defective cortical neurogenesis and brain ventricle enlargement. These data point to defective NPCs calcium handling and metabolic activity as one of the pathogenetic mechanisms driving CH., Competing Interests: Declaration of interests E.T., V.F., D.Chiabrando, S.P., F.B., and A.L.A. are inventors in a patent filed by the University of Torino, not related to the research reported here., (Copyright © 2024 The Author(s). Published by Elsevier Inc. All rights reserved.)

Published
2024
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40. Unearthing FLVCR1a: tracing the path to a vital cellular transporter.

Author

Fiorito V and Tolosano E

Subjects
Cats, Animals, Membrane Transport Proteins metabolism, Receptors, Virus genetics, Receptors, Virus metabolism
Abstract

The Feline Leukemia Virus Subgroup C Receptor 1a (FLVCR1a) is a member of the SLC49 Major Facilitator Superfamily of transporters. Initially recognized as the receptor for the retrovirus responsible of pure red cell aplasia in cats, nearly two decades since its discovery, FLVCR1a remains a puzzling transporter, with ongoing discussions regarding what it transports and how its expression is regulated. Nonetheless, despite this, the substantial body of evidence accumulated over the years has provided insights into several critical processes in which this transporter plays a complex role, and the health implications stemming from its malfunction. The present review intends to offer a comprehensive overview and a critical analysis of the existing literature on FLVCR1a, with the goal of emphasising the vital importance of this transporter for the organism and elucidating the interconnections among the various functions attributed to this transporter., (© 2024. The Author(s).)

Published
2024
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41. Heme metabolism in nonerythroid cells.

Author

Dunaway LS, Loeb SA, Petrillo S, Tolosano E, and Isakson BE

Subjects
Animals, Humans, Circadian Rhythm physiology, Hemeproteins metabolism, Oxidation-Reduction, Signal Transduction, Intracellular Space metabolism, Heme metabolism, Cell Physiological Phenomena physiology
Abstract

Heme is an iron-containing prosthetic group necessary for the function of several proteins termed "hemoproteins." Erythrocytes contain most of the body's heme in the form of hemoglobin and contain high concentrations of free heme. In nonerythroid cells, where cytosolic heme concentrations are 2 to 3 orders of magnitude lower, heme plays an essential and often overlooked role in a variety of cellular processes. Indeed, hemoproteins are found in almost every subcellular compartment and are integral in cellular operations such as oxidative phosphorylation, amino acid metabolism, xenobiotic metabolism, and transcriptional regulation. Growing evidence reveals the participation of heme in dynamic processes such as circadian rhythms, NO signaling, and the modulation of enzyme activity. This dynamic view of heme biology uncovers exciting possibilities as to how hemoproteins may participate in a range of physiologic systems. Here, we discuss how heme is regulated at the level of its synthesis, availability, redox state, transport, and degradation and highlight the implications for cellular function and whole organism physiology., Competing Interests: Conflict of interest The authors declare that they have no conflicts of interest with the contents of this article., (Copyright © 2024 The Authors. Published by Elsevier Inc. All rights reserved.)

Published
2024
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42. Flvcr1a deficiency promotes heme-based energy metabolism dysfunction in skeletal muscle.

Author

Mistretta M, Fiorito V, Allocco AL, Ammirata G, Hsu MY, Digiovanni S, Belicchi M, Napoli L, Ripolone M, Trombetta E, Mauri P, Farini A, Meregalli M, Villa C, Porporato PE, Miniscalco B, Crich SG, Riganti C, Torrente Y, and Tolosano E

Subjects
Mice, Animals, Heme metabolism, Mice, Knockout, Muscle, Skeletal metabolism, Energy Metabolism, Cell Differentiation physiology, Membrane Transport Proteins metabolism, Satellite Cells, Skeletal Muscle metabolism
Abstract

The definition of cell metabolic profile is essential to ensure skeletal muscle fiber heterogeneity and to achieve a proper equilibrium between the self-renewal and commitment of satellite stem cells. Heme sustains several biological functions, including processes profoundly implicated with cell metabolism. The skeletal muscle is a significant heme-producing body compartment, but the consequences of impaired heme homeostasis on this tissue have been poorly investigated. Here, we generate a skeletal-muscle-specific feline leukemia virus subgroup C receptor 1a (FLVCR1a) knockout mouse model and show that, by sustaining heme synthesis, FLVCR1a contributes to determine the energy phenotype in skeletal muscle cells and to modulate satellite cell differentiation and muscle regeneration., Competing Interests: Declaration of interests The authors declare no competing interests., (Copyright © 2024 The Author(s). Published by Elsevier Inc. All rights reserved.)

Published
2024
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43. Targeting circulating labile heme as a defense strategy against malaria.

Author

Ramos S, Jeney V, Figueiredo A, Paixão T, Sambo MR, Quinhentos V, Martins R, Gouveia Z, Carlos AR, Ferreira A, Pais TF, Lainé H, Faísca P, Rebelo S, Cardoso S, Tolosano E, Penha-Gonçalves C, and Soares MP

Subjects
Child, Humans, Mice, Animals, Heme, Hemoglobins, Haptoglobins, Malaria, Acute Kidney Injury
Abstract

Severe presentations of malaria emerge as Plasmodium (P.) spp. parasites invade and lyse red blood cells (RBC), producing extracellular hemoglobin (HB), from which labile heme is released. Here, we tested whether scavenging of extracellular HB and/or labile heme, by haptoglobin (HP) and/or hemopexin (HPX), respectively, counter the pathogenesis of severe presentations of malaria. We found that circulating labile heme is an independent risk factor for cerebral and non-cerebral presentations of severe P. falciparum malaria in children. Labile heme was negatively correlated with circulating HP and HPX, which were, however, not risk factors for severe P. falciparum malaria. Genetic Hp and/or Hpx deletion in mice led to labile heme accumulation in plasma and kidneys, upon Plasmodium infection This was associated with higher incidence of mortality and acute kidney injury (AKI) in ageing but not adult Plasmodium -infected mice, and was corroborated by an inverse correlation between heme and HPX with serological markers of AKI in P. falciparum malaria. In conclusion, HP and HPX act in an age-dependent manner to prevent the pathogenesis of severe presentation of malaria in mice and presumably in humans., (© 2024 Ramos et al.)

Published
2024
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44. FLVCR1a Controls Cellular Cholesterol Levels through the Regulation of Heme Biosynthesis and Tricarboxylic Acid Cycle Flux in Endothelial Cells.

Author

Manco M, Ammirata G, Petrillo S, De Giorgio F, Fontana S, Riganti C, Provero P, Fagoonee S, Altruda F, and Tolosano E

Subjects
Mice, Animals, Membrane Transport Proteins metabolism, Cell Membrane metabolism, Mice, Knockout, Heme metabolism, Endothelial Cells metabolism, Citric Acid Cycle
Abstract

Feline leukemia virus C receptor 1a (FLVCR1a), initially identified as a retroviral receptor and localized on the plasma membrane, has emerged as a crucial regulator of heme homeostasis. Functioning as a positive regulator of δ-aminolevulinic acid synthase 1 (ALAS1), the rate-limiting enzyme in the heme biosynthetic pathway, FLVCR1a influences TCA cycle cataplerosis, thus impacting TCA flux and interconnected metabolic pathways. This study reveals an unexplored link between FLVCR1a, heme synthesis, and cholesterol production in endothelial cells. Using cellular models with manipulated FLVCR1a expression and inducible endothelial-specific Flvcr1a -null mice, we demonstrate that FLVCR1a-mediated control of heme synthesis regulates citrate availability for cholesterol synthesis, thereby influencing cellular cholesterol levels. Moreover, alterations in FLVCR1a expression affect membrane cholesterol content and fluidity, supporting a role for FLVCR1a in the intricate regulation of processes crucial for vascular development and endothelial function. Our results underscore FLVCR1a as a positive regulator of heme synthesis, emphasizing its integration with metabolic pathways involved in cellular energy metabolism. Furthermore, this study suggests that the dysregulation of heme metabolism may have implications for modulating lipid metabolism. We discuss these findings in the context of FLVCR1a's potential heme-independent function as a choline importer, introducing additional complexity to the interplay between heme and lipid metabolism.

Published
2024
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46. Duality of Nrf2 in iron-overload cardiomyopathy.

Author

Federti E, Vinchi F, Iatcenko I, Ghigo A, Matte A, Toya SCM, Siciliano A, Chiabrando D, Tolosano E, Vance SZ, Riccardi V, Andolfo I, Iezzi M, Lamolinara A, Iolascon A, and De Franceschi L

Subjects
Animals, Male, Mice, Hepcidins, Iron metabolism, NF-E2-Related Factor 2 metabolism, Quality of Life, Cardiomyopathies etiology, Cardiomyopathies genetics, Cardiomyopathies metabolism, Iron Overload complications, Iron Overload genetics, Iron Overload metabolism, Thalassemia complications, Thalassemia genetics, Thalassemia metabolism
Abstract

Cardiomyopathy deeply affects quality of life and mortality of patients with b-thalassemia or with transfusion-dependent myelodysplastic syndromes. Recently, a link between Nrf2 activity and iron metabolism has been reported in liver ironoverload murine models. Here, we studied C57B6 mice as healthy control and nuclear erythroid factor-2 knockout (Nrf2-/-) male mice aged 4 and 12 months. Eleven-month-old wild-type and Nrf2-/- mice were fed with either standard diet or a diet containing 2.5% carbonyl-iron (iron overload [IO]) for 4 weeks. We show that Nrf2-/- mice develop an age-dependent cardiomyopathy, characterized by severe oxidation, degradation of SERCA2A and iron accumulation. This was associated with local hepcidin expression and increased serum non-transferrin-bound iron, which promotes maladaptive cardiac remodeling and interstitial fibrosis related to overactivation of the TGF-b pathway. When mice were exposed to IO diet, the absence of Nrf2 was paradoxically protective against further heart iron accumulation. Indeed, the combination of prolonged oxidation and the burst induced by IO diet resulted in activation of the unfolded protein response (UPR) system, which in turn promotes hepcidin expression independently from heart iron accumulation. In the heart of Hbbth3/+ mice, a model of b-thalassemia intermedia, despite the activation of Nrf2 pathway, we found severe protein oxidation, activation of UPR system and cardiac fibrosis independently from heart iron content. We describe the dual role of Nrf2 when aging is combined with IO and its novel interrelation with UPR system to ensure cell survival. We open a new perspective for early and intense treatment of cardiomyopathy in patients with b-thalassemia before the appearance of heart iron accumulation.

Published
2023
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47. Circulating hemopexin modulates anthracycline cardiac toxicity in patients and in mice.

Author

Liu J, Lane S, Lall R, Russo M, Farrell L, Debreli Coskun M, Curtin C, Araujo-Gutierrez R, Scherrer-Crosbie M, Trachtenberg BH, Kim J, Tolosano E, Ghigo A, Gerszten RE, and Asnani A

Subjects
Animals, Female, Mice, Antibiotics, Antineoplastic, Doxorubicin, Hemopexin metabolism, Hemopexin pharmacology, Anthracyclines toxicity, Cardiotoxicity etiology
Abstract

Anthracyclines such as doxorubicin (Dox) are effective chemotherapies, but their use is limited by cardiac toxicity. We hypothesized that plasma proteomics in women with breast cancer could identify new mechanisms of anthracycline cardiac toxicity. We measured changes in 1317 proteins in anthracycline-treated patients ( n  = 30) and replicated key findings in a second cohort ( n  = 31). An increase in the heme-binding protein hemopexin (Hpx) 3 months after anthracycline initiation was associated with cardiac toxicity by echocardiography. To assess the functional role of Hpx, we administered Hpx to wild-type (WT) mice treated with Dox and observed improved cardiac function. Conversely, Hpx -/- mice demonstrated increased Dox cardiac toxicity compared to WT mice. Initial mechanistic studies indicate that Hpx is likely transported to the heart by circulating monocytes/macrophages and that Hpx may mitigate Dox-induced ferroptosis to confer cardioprotection. Together, these observations suggest that Hpx induction represents a compensatory response during Dox treatment.

Published
2022
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48. Bone Marrow Mesenchymal Stromal/Stem Cell-Derived Extracellular Vesicles Promote Corneal Wound Repair by Regulating Inflammation and Angiogenesis.

Author

Saccu G, Menchise V, Gai C, Bertolin M, Ferrari S, Giordano C, Manco M, Dastrù W, Tolosano E, Bussolati B, Calautti E, Camussi G, Altruda F, and Fagoonee S

Subjects
Animals, Humans, Mice, Bone Marrow, Inflammation metabolism, Extracellular Vesicles metabolism, Mesenchymal Stem Cells metabolism, Corneal Injuries therapy, Corneal Injuries metabolism
Abstract

Severe corneal damage leads to complete vision loss, thereby affecting life quality and impinging heavily on the healthcare system. Current clinical approaches to manage corneal wounds suffer from severe drawbacks, thus requiring the development of alternative strategies. Of late, mesenchymal stromal/stem cell (MSC)-derived extracellular vesicles (EVs) have become a promising tool in the ophthalmic field. In the present study, we topically delivered bone-marrow-derived MSC-EVs (BMSC-EVs), embedded in methylcellulose, in a murine model of alkali-burn-induced corneal damage in order to evaluate their role in corneal repair through histological and molecular analyses, with the support of magnetic resonance imaging. Our data show that BMSC-EVs, used for the first time in this specific formulation on the damaged cornea, modulate cell death, inflammation and angiogenetic programs in the injured tissue, thus leading to a faster recovery of corneal damage. These results were confirmed on cadaveric donor-derived human corneal epithelial cells in vitro. Thus, BMSC-EVs modulate corneal repair dynamics and are promising as a new cell-free approach for intervening on burn wounds, especially in the avascularized region of the eye.

Published
2022
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49. Divergent roles of haptoglobin and hemopexin deficiency for disease progression of Shiga-toxin-induced hemolytic-uremic syndrome in mice.

Author

Pirschel W, Mestekemper AN, Wissuwa B, Krieg N, Kröller S, Daniel C, Gunzer F, Tolosano E, Bauer M, Amann K, Heinemann SH, and Coldewey SM

Subjects
Animals, Disease Progression, Haptoglobins genetics, Heme, Hemoglobins, Hemolysis, Hemopexin, Mice, Shiga Toxin, Escherichia coli Infections complications, Hemolytic-Uremic Syndrome complications, Shiga-Toxigenic Escherichia coli, Thrombotic Microangiopathies etiology
Abstract

Thrombotic microangiopathy, hemolysis and acute kidney injury are typical clinical characteristics of hemolytic-uremic syndrome (HUS), which is predominantly caused by Shiga-toxin-producing Escherichia coli. Free heme aggravates organ damage in life-threatening infections, even with a low degree of systemic hemolysis. Therefore, we hypothesized that the presence of the hemoglobin- and the heme-scavenging proteins, haptoglobin and hemopexin, respectively impacts outcome and kidney pathology in HUS. Here, we investigated the effect of haptoglobin and hemopexin deficiency (haptoglobin -/- , hemopexin -/- ) and haptoglobin treatment in a murine model of HUS-like disease. Seven-day survival was decreased in haptoglobin -/- (25%) compared to wild type mice (71.4%), whereas all hemopexin -/- mice survived. Shiga-toxin-challenged hemopexin -/- mice showed decreased kidney inflammation and attenuated thrombotic microangiopathy, indicated by reduced neutrophil recruitment and platelet deposition. These observations were associated with supranormal haptoglobin plasma levels in hemopexin -/- mice. Low dose haptoglobin administration to Shiga-toxin-challenged wild type mice attenuated kidney platelet deposition and neutrophil recruitment, suggesting that haptoglobin at least partially contributes to the beneficial effects. Surrogate parameters of hemolysis were elevated in Shiga-toxin-challenged wild type and haptoglobin -/- mice, while signs for hepatic hemoglobin degradation like heme oxygenase-1, ferritin and CD163 expression were only increased in Shiga-toxin-challenged wild type mice. In line with this observation, haptoglobin -/- mice displayed tubular iron deposition as an indicator for kidney hemoglobin degradation. Thus, haptoglobin and hemopexin deficiency plays divergent roles in Shiga-toxin-mediated HUS, suggesting haptoglobin is involved and hemopexin is redundant for the resolution of HUS pathology., (Copyright © 2022 International Society of Nephrology. Published by Elsevier Inc. All rights reserved.)

Published
2022
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50. Circulating Extracellular Vesicles Contain Liver-Derived RNA Species as Indicators of Severe Cholestasis-Induced Early Liver Fibrosis in Mice.

Author

Fagoonee S, Arigoni M, Manco M, Olivero M, Bizzaro F, Magagnotti C, Andolfo A, Miniscalco B, Forni M, Todeschi S, Tolosano E, Bocchietto E, Calogero R, and Altruda F

Subjects
Animals, Disease Models, Animal, Liver pathology, Liver Cirrhosis genetics, Liver Cirrhosis pathology, Mice, Cholestasis genetics, Cholestasis pathology, Extracellular Vesicles, MicroRNAs genetics
Abstract

Aims: Biliary diseases represent around 10% of all chronic liver diseases and affect both adults and children. Currently available biochemical tests detect cholestasis but not early liver fibrosis. Circulating extracellular vesicles (EVs) provide a noninvasive, real-time molecular snapshot of the injured organ. We thus aimed at searching for a panel of EV-based biomarkers for cholestasis-induced early liver fibrosis using mouse models. Results: Progressive and detectable histological evidence of collagen deposition and liver fibrosis was observed from day 8 after bile duct ligation (BDL) in mice. Whole transcriptome and small RNA sequencing analyses of circulating EVs revealed differentially enriched RNA species after BDL versus sham controls. Unsupervised hierarchical clustering identified a signature that allowed for discrimination between BDL and controls. In particular, 151 microRNAs (miRNAs) enriched in BDL-derived EVs were identified, of which 66 were conserved in humans. The liver was an important source of circulating EVs in BDL animals as evidenced by the enrichment of several hepatic mRNAs, such as Albumin and Haptoglobin . Interestingly, among experimentally validated miRNAs, miR192-5p, miR194-5p, miR22-3p, and miR29a-3p showed similar enrichment patterns also in EVs derived from 3,5-diethoxycarboncyl-1,4-dihydrocollidine-treated (drug-induced severe cholestasis) but not in mice with mild phenotype or non-cholestatic liver fibrosis. Innovation: A panel of mRNAs and miRNAs contained in circulating EVs, when combined, indicates hepatic damage and fibrosis in mice and represents promising biomarkers for human severe cholestasis-induced liver fibrosis. Conclusion: Analysis of EV-based miRNAs, in combination with hepatic injury RNA markers, can detect early cholestatic liver injury and fibrosis in mice. Antioxid. Redox Signal. 36, 480-504.

Published
2022
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