Searchable abstracts of presentations at key conferences on calcified tissues

ba0006is03biog | (1) (1) | ICCBH2017

Bone cells in health and disease

Forlino Antonella

Biographical DetailsDr Antonella ForlinoDr Antonella Forlino obtained her Degree in Biological Science in 1991 at the University of Pavia, Italy; her PhD in Biochemistry in 1994 at the University of Pavia and her Speciality Degree in Genetic in 1997. From 1995 to 1999 Dr Forlino had a fellowship at NIH, Bethesda, MD, USA. She is now Associate Profes...

ba0002oc12 | Biology | ICCBH2013

Improvement of collagen synthesis in fibroblasts of Brtl model for osteogenesis imperfecta following lentiviral-shRNA-mediated down-expression of mutant Col1a1 allele

Trichet Valerie , Rousseau Julie , Gioia Roberta , Layrolle Pierre , Heymann Dominique , Rossi Antonio , Marini Joan , Forlino Antonella

Objectives: The Brtl mouse, a unique model for the autosomal dominant forms of osteogenesis imperfecta was used to prove the feasibility of a lentiviral-shRNA-based strategy to improve collagen quality by targeting the mutant Col1a1 allele at the point mutation responsible for the causative substitution Gly349Cys. The ability to specifically suppress the mutant allele should convert the moderate Brtl outcome to the mild one caused by quantitative defect.<p class="...

ba0002oc22 | Miscellaneous | ICCBH2013

Prolidase deficient mice are osteoporotic in early life

Foster Sarah , Grabowski Peter , Gallagher Orla , Besio Roberta , Rossi Antonio , Bishop Nick , Forlino Antonella

Background: Proline and hydroxyproline account for ~25% of aminoacids in collagen., Prolidase (peptidase D (EC 3.4.14.9)), cleaves iminodipeptides with a C-terminal proline or hydroxyproline, playing a major role in collagen catabolism. Mice with prolidase deficiency (PD) present with varied phenotypes including reduced size compared to wild-type littermates. We measured structural and mechanical properties of bones in PD mice.Methods: Whole femurs from ...

ba0005p444 | Other diseases of bone and mineral metabolism | ECTS2016

Deep characterization of a zebrafish model for dominant osteogenesis imperfecta

Tonelli Francesca , Gioia Roberta , Biggiogera Marco , Fisher Shannon , Leikin Sergey , Schinke Thorsten , Rossi Antonio , Forlino Antonella

Dominant osteogenesis imperfecta (OI) is a bone disease mainly caused by collagen type I mutations and characterized by bone fragility and growth delay. Nowadays no definitive cure is available. A zebrafish OI model (Chihuahua) carrying an heterozygous G574D substitution in the α1 chain of collagen type I was generated by ENU mutagenesis and is available in our laboratory. Control (WT) and mutant (Chi+/−) fish growth was followed up from day 1 post fertilization to ...

ba0007is10 | (1) | ICCBH2019

Endoplasmic reticulum stress in osteoblasts

Besio Roberta , Tonelli Francesca , Garibaldi Nadia , Leoni Laura , Cotti Silvia , Forlino Antonella

Bone tissue homeostasis requires the coordinated activity of osteoblasts, the bone forming cells, of osteoclasts, the bone resorbing cells, and of osteocytes, generally referred as the bone mechano-sensors. In this contest, osteoblasts are the mesenchymal cells secreting the extracellular matrix components on which hydroxyapatite crystals are then deposited. The most abundant protein of this organic matrix is type I collagen, a heterotrimeric secretory protein, synthesized as ...

ba0007is10 | (1) | IMPE2023

Endoplasmic reticulum stress in osteoblasts

Besio Roberta , Tonelli Francesca , Garibaldi Nadia , Leoni Laura , Cotti Silvia , Forlino Antonella

Bone tissue homeostasis requires the coordinated activity of osteoblasts, the bone forming cells, of osteoclasts, the bone resorbing cells, and of osteocytes, generally referred as the bone mechano-sensors. In this contest, osteoblasts are the mesenchymal cells secreting the extracellular matrix components on which hydroxyapatite crystals are then deposited. The most abundant protein of this organic matrix is type I collagen, a heterotrimeric secretory protein, synthesized as ...

ba0005p216 | Chondrocytes and cartilage | ECTS2016

The role of CANT1 in skeletal development with a mouse model of Desbuquois dysplasia type 1

Monti Luca , Costantini Rossella , Paganini Chiara , Lecci Silvia , Maruelli Silvia , Biggiogera Marco , Cormier-Daire Valerie , Forlino Antonella , Rossi Antonio

Desbuquois dysplasia (DBQD) is a rare recessive chondrodysplasia, characterized by growth retardation, multiple dislocations and advanced carpal ossification. Two forms of DBQD have been described on the basis of the presence (type 1) or absence (type 2) of characteristic hand anomalies. DBQD type 1 is caused by mutations in the Calcium-Activated Nucleotidase 1 gene (CANT1), while DBQD type 2 is caused by mutations in the xylosiltransferase 1 gene.CANT1 ...

ba0006is03 | (1) (1) | ICCBH2017

Bone cells in health and disease

Besio Roberta , Gioia Roberta , Tonelli Francesca , Ceppi Ilaria , Leoni Laura , Atta Linda Ofori , Rossi Antonio , Forlino Antonella

Bone is a complex tissue constituted by a mineral phase, hydroxyapatite, and an organic phase, mainly represented by collagen type I. Specialized cells are responsible for bone formation and remodeling. Osteoblasts represent the bone forming cells, osteocyte are the orchestrator of bone remodeling through regulation of the other bone cells activity, by functioning as endocrine cells and by acting as mechanosensor, and osteoclasts, the bone resorbing cells. Mesenchymal osteopro...

ba0007p37 | (1) | ICCBH2019

Generation of osteogenesis imperfecta type XIV zebrafish models

Leoni Laura , Tonelli Francesca , Cotti Silvia , Giannini Gabriella , Daponte Valentina , Gioia Roberta , Besio Roberta , Garibaldi Nadia , Rossi Antonio , Forlino Antonella

Objectives: Osteogenesis Imperfecta (OI) type XIV is a recessive OI form characterized by bone fragility, multiple fractures and growth retardation. It is caused by mutation in TMEM38B gene encoding the endoplasmic reticulum (ER) channel TRIC-B. This channel allows the transport of K+ across the ER membrane modulating Ca2+ flux. Defective ER Ca2+ impaires collagen type I synthesis, likely affecting the activity of ER enzymes involved in its post translational modification. To ...

ba0007p37 | (1) | IMPE2023

Generation of osteogenesis imperfecta type XIV zebrafish models

Leoni Laura , Tonelli Francesca , Cotti Silvia , Giannini Gabriella , Daponte Valentina , Gioia Roberta , Besio Roberta , Garibaldi Nadia , Rossi Antonio , Forlino Antonella

Objectives: Osteogenesis Imperfecta (OI) type XIV is a recessive OI form characterized by bone fragility, multiple fractures and growth retardation. It is caused by mutation in TMEM38B gene encoding the endoplasmic reticulum (ER) channel TRIC-B. This channel allows the transport of K+ across the ER membrane modulating Ca2+ flux. Defective ER Ca2+ impaires collagen type I synthesis, likely affecting the activity of ER enzymes involved in its post translational modification. To ...