Browsing by Author "Monteiro, Fernando J."
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- Behavior of prostate cancer cells in a nanohydroxyapatite/collagen bone scaffoldPublication . Cruz-Neves, Susana; Ribeiro, Nilza; Pinho dos Santos Graça, Maria Inês; Jerónimo, Carmen; Sousa, Susana R.; Monteiro, Fernando J.Prostate cancer (PCa) is the second leading cause of death among men in Europe and U.S. The metastatic dissemination pattern of PCa is unique, developing bone metastasis as the only site of progression, consequently with a prognosis very poor. The cancer cells interactions within the surrounding bone environment are critical for tumor growth and progression. Secreted protein, acidic and rich in cysteine (SPARC) is described to be involved in PCa cells migration and invasion into bone. Three-dimensional (3D) in vitro systems that are able to closely resemble the in vivo microenvironment are recently taking importance in cancer research. Original nanohydroxyapatite/collagen scaffolds were designed to resemble bone microenvironment in order to be applied as substitutes in bone defects and as potential biomaterials to mimic skeletal tumors. In fact, these 3D structures were cytocompatible and able to support osteoblast (MC3T3-E1) colonization and to promote bone ingrowth. Additionally, SPARC adsorption onto the scaffolds affected PC3 and LNCaP PCa cell lines behavior. PC3 cells were found to adapt and colonize the scaffolds, differing from LNCaP where cells underwent morphogenic changes and grew as clusters. Furthermore, for the tested SPARC concentration, SPARC plays a role in retaining LNCaP cells at the latter time points while with PC3 cells no significant differences were observed. This characterization study is required to establish a bone model to provide new insights into the poorly understood PCa mechanisms of metastasis to bone and the generation of improved therapies.
- A biocomposite of collagen nanofibers and nanohydroxyapatite for bone regenerationPublication . Ribeiro, Nilza; Sousa, Susana R.; Van Blitterswijk, Clemens A.; Moroni, Lorenzo; Monteiro, Fernando J.This work aims to design a synthetic construct that mimics the natural bone extracellular matrix through innovative approaches based on simultaneous type I collagen electrospinning and nanophased hydroxyapatite (nanoHA) electrospraying using non-denaturating conditions and non-toxic reagents. The morphological results, assessed using scanning electron microscopy and atomic force microscopy (AFM), showed a mesh of collagen nanofibers embedded with crystals of HA with fiber diameters within the nanometer range (30 nm), thus significantly lower than those reported in the literature, over 200 nm. The mechanical properties, assessed by nanoindentation using AFM, exhibited elastic moduli between 0.3 and 2 GPa. Fourier transformed infrared spectrometry confirmed the collagenous integrity as well as the presence of nanoHA in the composite. The network architecture allows cell access to both collagen nanofibers and HA crystals as in the natural bone environment. The inclusion of nanoHA agglomerates by electrospraying in type I collagen nanofibers improved the adhesion and metabolic activity of MC3T3-E1 osteoblasts. This new nanostructured collagen–nanoHA composite holds great potential for healing bone defects or as a functional membrane for guided bone tissue regeneration and in treating bone diseases.
- Comprehensive Analysis of Secreted Protein, Acidic and Rich in Cysteine in Prostate Carcinogenesis: Development of a 3D Nanostructured Bone-Like ModelPublication . Ribeiro, Nilza; Costa-Pinheiro, Pedro; Henrique, Rui; Gomez-Lazaro, Maria; Pereira, Marisa P.; Mansur, Alexandra A. P.; Mansur, Herman S.; Jerónimo, Carmen; Sousa, Susana R.; Monteiro, Fernando J.Most aggressive prostate cancer (PCa) types tend to metastasize frequently to bone and SPARC, a matricellular protein, might participate in such biological processes. The objective of this study was to evaluate the effect of SPARC in prostate carcinogenesis and bone metastization. This was explored assessing the morphology, metabolic activity and SPARC expression of different PCa cell lines resembling different stages of carcinogenesis, using a 3D bone-biomimetic model (collagen nanofibers/nanohydroxyapatite) grafted with SPARC. Our findings highlight distinct cellular behavior depending on cell type and presence of exogenous SPARC. In fact, SPARC addition contributed to the survival and significant growth of a non-bone metastatic PCa cell line (LNCaP) on bone-like biomaterial. Moreover, SPARC expression levels were evaluated in a series of prostatic tissues, comparing normal prostate, pre-neoplastic prostate intraepithelial neoplasias and overtly malignant tumors, and also metastasis to its correspondent primary prostate tumors, ascertaining potential association between SPARC and clinicopathological data. Remarkably, SPARC was overexpressed in patients with higher Gleason Score, indicating tumors with poor prognosis, as well as in metastasis, particularly from bone sites, compared with their respective primary tumors. The results suggest a potential role of SPARC as a clinical target on PCa, due to its association with bone metastization.
- Heparinized nanohydroxyapatite/collagen granules for controlled release of vancomycinPublication . Coelho, Catarina C.; Sousa, Susana R.; Monteiro, Fernando J.The purpose of this study was to develop a bone substitute material capable of preventing or treating osteomyelitis through a sustainable release of vancomycin and simultaneously inducing bone regeneration. Porous heparinized nanohydroxyapatite (nanoHA)/collagen granules were characterized using scanning electron microscopy, micro-computed tomography and attenuated total reflectance Fourier transform infrared spectroscopy. After vancomycin adsorption onto the granules, its releasing profile was studied by UV molecular absorption spectroscopy. The heparinized granules presented a more sustainable release over time, in comparison with nonheparinized nanoHA and nanoHA/collagen granules. Vancomycin was released for 360 h and proved to be bioactive until 216 h. Staphylococcus aureus adhesion was higher on granules containing collagen, guiding the bacteria to the material with antibiotic, improving their eradication. Moreover, cytotoxicity of the released vancomycin was assessed using osteoblast cultures, and after 14 days of culture in the presence of vancomycin, cells were able to remain viable, increasing their metabolic activity and colonizing the granules, as observed by scanning electron microscopy and confocal laser scanning microscopy. These findings suggest that heparinized nanoHA/collagen granules are a promising material to improve the treatment of osteomyelitis, as they are capable of releasing vancomycin, eliminating the bacteria, and presented morphological and chemical characteristics to induce bone regeneration.
- Role of SPARC in Bone Remodeling and Cancer‐Related Bone MetastasisPublication . Ribeiro, Nilza; Sousa, Susana R.; Brekken, Rolf A.; Monteiro, Fernando J.There is a growing socioeconomic recognition that clinical bone diseases such as bone infections, bone tumors and osteoporotic bone loss mainly associated with ageing, are major issues in today0s society. SPARC (secreted protein, acidic and rich in cysteine), a matricellular glycoprotein, may be a promising therapeutic target for preventing or treating bone‐related diseases. In fact, SPARC is associated with tissue remodeling, repair, development, cell turnover, bone mineralization and may also participate in growth and progression of tumors, namely cancer‐related bone metastasis. Yet, the function of SPARC in such biological processes is poorly understood and controversial. The main objective of this work is to review the current knowledge related to the activity of SPARC in bone remodeling, tumorigenesis, and bone metastasis. Progress in understanding SPARC biology may provide novel strategies for bone regeneration and the development of anti‐angiogenic, anti‐proliferative, or counter‐adhesive treatments specifically against bone metastasis.
- The antibacterial and angiogenic effect of magnesium oxide in a hydroxyapatite bone substitutePublication . Coelho, Catarina C.; Padrão, Tatiana; Costa, Laura; Pinto, Marta T .; Costa, Paulo C.; Domingues, Valentina F.; Quadros, Paulo A.; Monteiro, Fernando J.; Sousa, Susana R.Bone graft infections are serious complications in orthopaedics and the growing resistance to antibiotics is increasing the need for antibacterial strategies. The use of magnesium oxide (MgO) is an interesting alternative since it possesses broad-spectrum antibacterial activity. Additionally, magnesium ions also play a role in bone regeneration, which makes MgO more appealing than other metal oxides. Therefore, a bone substitute composed of hydroxyapatite and MgO (HAp/MgO) spherical granules was developed using different sintering heat-treatment cycles to optimize its features. Depending on the sintering temperature, HAp/MgO spherical granules exhibited distinct surface topographies, mechanical strength and degradation profiles, that influenced the in vitro antibacterial activity and cytocompatibility. A proper balance between antibacterial activity and cytocompatibility was achieved with HAp/MgO spherical granules sintered at 1100 ºC. The presence of MgO in these granules was able to significantly reduce bacterial proliferation and simultaneously provide a suitable environment for osteoblasts growth. The angiogenic and inflammation potentials were also assessed using the in vivo chicken embryo chorioallantoic membrane (CAM) model and the spherical granules containing MgO stimulated angiogenesis without increasing inflammation. The outcomes of this study evidence a dual effect of MgO for bone regenerative applications making this material a promising antibacterial bone substitute.