Your search keyword '"Ester Boix"' showing total 5 results

1. Editorial: Role of Ribonucleases in Immune Response Regulation During Infection and Cancer

Author

Ester Boix, Francesco Acquati, Demetres Leonidas, and David Pulido

Subjects

RNaseA, RNaseT2, cancer, infection, innate immunity, oligomers, Immunologic diseases. Allergy, RC581-607

Published

2020

2. Human Antimicrobial RNases Inhibit Intracellular Bacterial Growth and Induce Autophagy in Mycobacteria-Infected Macrophages

Author

Lu Lu, Javier Arranz-Trullén, Guillem Prats-Ejarque, David Pulido, Sanjib Bhakta, and Ester Boix

Subjects

antimicrobial peptides, ribonucleases, tuberculosis, macrophage, autophagy, Immunologic diseases. Allergy, RC581-607

Abstract

The development of novel treatment against tuberculosis is a priority global health challenge. Antimicrobial proteins and peptides offer a multifaceted mechanism suitable to fight bacterial resistance. Within the RNaseA superfamily there is a group of highly cationic proteins secreted by innate immune cells with anti-infective and immune-regulatory properties. In this work, we have tested the human canonical members of the RNase family using a spot-culture growth inhibition assay based mycobacteria-infected macrophage model for evaluating their anti-tubercular properties. Out of the seven tested recombinant human RNases, we have identified two members, RNase3 and RNase6, which were highly effective against Mycobacterium aurum extra- and intracellularly and induced an autophagy process. We observed the proteins internalization within macrophages and their capacity to eradicate the intracellular mycobacterial infection at a low micro-molar range. Contribution of the enzymatic activity was discarded by site-directed mutagenesis at the RNase catalytic site. The protein induction of autophagy was analyzed by RT-qPCR, western blot, immunofluorescence, and electron microscopy. Specific blockage of auto-phagosome formation and maturation reduced the protein's ability to eradicate the infection. In addition, we found that the M. aurum infection of human THP1 macrophages modulates the expression of endogenous RNase3 and RNase6, suggesting a function in vivo. Overall, our data anticipate a biological role for human antimicrobial RNases in host response to mycobacterial infections and set the basis for the design of novel anti-tubercular drugs.

Published

2019

3. Immune Modulation by Human Secreted RNases at the Extracellular Space

Author

Lu Lu, Jiarui Li, Mohammed Moussaoui, and Ester Boix

Subjects

ribonucleases, innate immunity, RNA, extracellular, inflammation, infection, Immunologic diseases. Allergy, RC581-607

Abstract

The ribonuclease A superfamily is a vertebrate-specific family of proteins that encompasses eight functional members in humans. The proteins are secreted by diverse innate immune cells, from blood cells to epithelial cells and their levels in our body fluids correlate with infection and inflammation processes. Recent studies ascribe a prominent role to secretory RNases in the extracellular space. Extracellular RNases endowed with immuno-modulatory and antimicrobial properties can participate in a wide variety of host defense tasks, from performing cellular housekeeping to maintaining body fluid sterility. Their expression and secretion are induced in response to a variety of injury stimuli. The secreted proteins can target damaged cells and facilitate their removal from the focus of infection or inflammation. Following tissue damage, RNases can participate in clearing RNA from cellular debris or work as signaling molecules to regulate the host response and contribute to tissue remodeling and repair. We provide here an overall perspective on the current knowledge of human RNases’ biological properties and their role in health and disease. The review also includes a brief description of other vertebrate family members and unrelated extracellular RNases that share common mechanisms of action. A better knowledge of RNase mechanism of actions and an understanding of their physiological roles should facilitate the development of novel therapeutics.

Published

2018

4. Host Antimicrobial Peptides: The Promise of New Treatment Strategies against Tuberculosis

Author

Javier Arranz-Trullén, Lu Lu, David Pulido, Sanjib Bhakta, and Ester Boix

Subjects

antimicrobial peptides, innate immunity, tuberculosis, infectious diseases, mycobacteria, antimicrobial resistance, Immunologic diseases. Allergy, RC581-607

Abstract

Tuberculosis (TB) continues to be a devastating infectious disease and remerges as a global health emergency due to an alarming rise of antimicrobial resistance to its treatment. Despite of the serious effort that has been applied to develop effective antitubercular chemotherapies, the potential of antimicrobial peptides (AMPs) remains underexploited. A large amount of literature is now accessible on the AMP mechanisms of action against a diversity of pathogens; nevertheless, research on their activity on mycobacteria is still scarce. In particular, there is an urgent need to integrate all available interdisciplinary strategies to eradicate extensively drug-resistant Mycobacterium tuberculosis strains. In this context, we should not underestimate our endogenous antimicrobial proteins and peptides as ancient players of the human host defense system. We are confident that novel antibiotics based on human AMPs displaying a rapid and multifaceted mechanism, with reduced toxicity, should significantly contribute to reverse the tide of antimycobacterial drug resistance. In this review, we have provided an up to date perspective of the current research on AMPs to be applied in the fight against TB. A better understanding on the mechanisms of action of human endogenous peptides should ensure the basis for the best guided design of novel antitubercular chemotherapeutics.

Published

2017

5. Immune Modulation by Human Secreted RNases at the Extracellular Space

Author

Jiarui Li, Mohammed Moussaoui, Lu Lu, and Ester Boix

Subjects

lcsh:Immunologic diseases. Allergy, 0301 basic medicine, Cell signaling, RNase P, Biochemical Phenomena, Immunology, Extracellular, extracellular, Inflammation, Review, Biology, 03 medical and health sciences, Mice, Ribonucleases, medicine, Immunology and Allergy, Animals, Humans, Secretion, innate immunity, Innate immunity, Clinical Trials as Topic, Innate immune system, RNA, Biological Transport, Immunity, Innate, infection, Cell biology, Rats, 030104 developmental biology, Secretory protein, inflammation, medicine.symptom, lcsh:RC581-607, Infection, Extracellular Space

Abstract

The ribonuclease A superfamily is a vertebrate-specific family of proteins that encompasses eight functional members in humans. The proteins are secreted by diverse innate immune cells, from blood cells to epithelial cells and their levels in our body fluids correlate with infection and inflammation processes. Recent studies ascribe a prominent role to secretory RNases in the extracellular space. Extracellular RNases endowed with immuno-modulatory and antimicrobial properties can participate in a wide variety of host defense tasks, from performing cellular housekeeping to maintaining body fluid sterility. Their expression and secretion are induced in response to a variety of injury stimuli. The secreted proteins can target damaged cells and facilitate their removal from the focus of infection or inflammation. Following tissue damage, RNases can participate in clearing RNA from cellular debris or work as signaling molecules to regulate the host response and contribute to tissue remodeling and repair. We provide here an overall perspective on the current knowledge of human RNases’ biological properties and their role in health and disease. The review also includes a brief description of other vertebrate family members and unrelated extracellular RNases that share common mechanisms of action. A better knowledge of RNase mechanism of actions and an understanding of their physiological roles should facilitate the development of novel therapeutics.

Published

2018