F. Bianchini scite author profile

Objective Infiltration of neutrophils into the joints plays an important role in bone erosion and articular destruction in rheumatoid arthritis (RA). Neutrophil trafficking during inflammation is a process that involves activation of chemotactic receptors. Recent findings suggest that changes in chemotactic receptor patterns could occur in neutrophils under certain inflammatory conditions. The aim of this study was to evaluate the gain of responsiveness of neutrophils to CCL2 in RA patients and to assess the role of CCL2 in driving neutrophil infiltration into the joints. Methods Neutrophils were purified from the peripheral blood of patients with RA or from mice with antigen‐induced arthritis (AIA). Expression of CCR2 was evaluated using polymerase chain reaction, flow cytometry, and immunofluorescence analyses. In vitro chemotaxis to CCL2 was assayed to evaluate the functional significance of de novo CCR2 expression. The murine AIA model was used to evaluate the in vivo role of CCR2 in neutrophil infiltration into the joints. Results High CCR2 expression and responsiveness to CCL2 were observed in neutrophils from the blood of patients with early RA and in neutrophils from the blood and bone marrow of mice with AIA. Genetic deficiency or pharmacologic inhibition of CCR2 protected against the infiltration of neutrophils into the joints. This protection was not associated with an impairment of the neutrophil chemotactic ability or CXC chemokine production in the joints. Moreover, adoptive transfer of wild‐type mouse neutrophils to CCR2‐deficient mice restored neutrophil infiltration and the articular mechanical hyperalgesia associated with joint inflammation. Conclusion These findings suggest that CCR2 is directly involved in the detrimental infiltration of neutrophils into the joints in patients with RA, showing a new inflammatory role of CCR2 during RA flares or active disease.

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A new l-amino acid oxidase from Bothrops jararacussu snake venom: Isolation, partial characterization, and assessment of pro-apoptotic and antiprotozoal activities

Carone

Costa

Burin

et al. 2017

International Journal of Biological Macromolecules

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BthTX-I from Bothrops jararacussu induces apoptosis in human breast cancer cell lines and decreases cancer stem cell subpopulation

Bezerra

Ferreira

Franceschi

et al. 2019

J. Venom. Anim. Toxins incl. Trop. Dis

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Background: Breast cancer is the neoplasm with both the highest incidence and mortality rate among women worldwide. Given the known snake venom cytotoxicity towards several tumor types, we evaluated the effects of BthTX-I from Bothrops jararacussu on MCF7, SKBR3, and MDAMB231 breast cancer cell lines. Methods: BthTX-I cytotoxicity was determined via MTT [3-(4,5-dimethylthiazol-2yl)-2,5-diphenyl-tetrazoliumbromide] assay. Cell death was measured by a hypotonic fluorescent solution method, annexin-V-FITC/propidium iodide staining and by apoptotic/autophagic protein expression. Cancer stem cells (CSCs) were quantified by flow cytometry using anti-CD24-FITC and anti-CD44-APC antibodies and propidium iodide. Results: BthTX-I at 102 µg/mL induced cell death in all cell lines. The toxin induced apoptosis in MCF7, SKBR3, and MDAMB231 in a dose-dependent manner, as confirmed by the increasing number of hypodiploid nuclei. Expression of pro-caspase 3, pro-caspase 8 and Beclin-1 proteins were increased, while the level of the antiapoptotic protein Bcl-2 was diminished in MCF7 cells. BthTX-I changed the staining pattern of CSCs in MDAMB231 cells by increasing expression of CD24 receptors, which mediated cell death. Conclusions: BthTX-I induces apoptosis and autophagy in all breast cancer cell lines tested and also reduces CSCs subpopulation, which makes it a promising therapeutic alternative for breast cancer.

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Soybean extract modified by Aspergillus awamori stimulates a greater collagen‐I synthesis in the intracellular matrix of human fibroblasts

Bezerra

Stocco

Bianchi

et al. 2021

J of Cosmetic Dermatology

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Skin aging is a complex, multifactorial process that results in dramatic changes in both skin structure and function, being manifested as wrinkles, fragility, atrophy, increased laxity, and others. 1,2 As skin ages, its physiological role gets compromised, meaning an augmented vulnerability to mechanical trauma; longer healing time; higher susceptibility to infection, bruising, tearing, photocarcinogenesis; and greater sensitivity to external agents. 3 The skin undergoes intrinsic aging, mainly driven by genetic and hormonal influences, and extrinsic aging, given to its location, mediated by UV radiation, smoking, diet, chemicals, trauma, and other

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F. Bianchini

CCR2 Expression in Neutrophils Plays a Critical Role in Their Migration Into the Joints in Rheumatoid Arthritis

A new l-amino acid oxidase from Bothrops jararacussu snake venom: Isolation, partial characterization, and assessment of pro-apoptotic and antiprotozoal activities

BthTX-I from Bothrops jararacussu induces apoptosis in human breast cancer cell lines and decreases cancer stem cell subpopulation

Soybean extract modified by Aspergillus awamori stimulates a greater collagen‐I synthesis in the intracellular matrix of human fibroblasts

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