Irene Fernández-Ruíz

Publications (4)20.66 Total impact

• Article: Role of MMPs in orchestrating inflammatory response in human monocytes via a TREM-1-PI3K-NF-κB pathway.

  Vanesa Gómez-Piña, Eriel Martínez, Irene Fernández-Ruíz, Carlos Del Fresno, Alessandra Soares-Schanoski, Teresa Jurado, María Siliceo, Victor Toledano, Rosa Fernández-Palomares, Francisco García-Rio, Francisco Arnalich, Subhra K Biswas, Eduardo López-Collazo
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  ABSTRACT: The MMPs constitute a family of endopeptidases that can cleavage extracellular proteins. They are involved in a number of events; some of these include inflammatory processes. One of its targets is the TREM-1, which has emerged as an important modulator of innate immune responses in mammals. This transmembrane glycoprotein possesses an Ig-like ectodomain readily shed by MMPs to generate sTREM-1. Whereas membrane-anchored TREM-1 amplifies inflammatory responses, sTREM-1 exhibits anti-inflammatory properties. Here we show that sustained cell surface expression of TREM-1 in human monocytes, through metalloproteinase inhibition, counteracts the well-characterized down-regulation of several proinflammatory cytokines during the ET time-frame, also known as M2 or alternative activation. In addition to the cytokines profile, other features of the ET phenotype were underdeveloped when TREM-1 was stabilized at the cell surface. These events were mediated by the signal transducers PI3Ks and Syk. We also show that sTREM-1 counteracts the proinflammatory response obtained by membrane TREM-1 stabilization but failed to induce ET on naïve human monocytes. As the sustained TREM-1 expression at the cell surface suffices to block the progress of a refractory state in human monocytes, our data indicate that TREM-1 and MMPs orchestrate an "adaptive" form of innate immunity by modulating the human monocytes response to endotoxin.
  Journal of leukocyte biology 03/2012; 91(6):933-45. · 4.99 Impact Factor
• Article: CD16 regulates TRIF-dependent TLR4 response in human monocytes and their subsets.

  Irina N Shalova, Tasneem Kajiji, Jyue Yuan Lim, Vanesa Gómez-Piña, Irene Fernández-Ruíz, Francisco Arnalich, Philip Tsau Choong Iau, Eduardo López-Collazo, Siew-Cheng Wong, Subhra K Biswas
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  ABSTRACT: Blood monocytes recognize Gram-negative bacteria through the TLR4, which signal via MyD88- and TRIF-dependent pathway to trigger an immune-inflammatory response. However, a dysregulated inflammatory response by these cells often leads to severe pathologies such as sepsis. We investigated the role of CD16 in the regulation of human monocyte response to Gram-negative endotoxin and sepsis. Blood monocytes from sepsis patients demonstrated an upregulation of several TRIF-dependent genes as well as a selective expansion of CD16-expressing (CD16(+)) monocytes. Gene expression and biochemical studies revealed CD16 to regulate the TRIF-dependent TLR4 pathway in monocytes by activating Syk, IFN regulatory factor 3, and STAT1, which resulted in enhanced expression of IFNB, CCL5, and CXCL10. CD16 also upregulated the expression of IL-1R-associated kinase M and IL-1 receptor antagonist, which are negative regulators of the MyD88-dependent pathway. CD16 overexpression or small interfering RNA knockdown in monocytes confirmed the above findings. Interestingly, these results were mirrored in the CD16(+) monocyte subset isolated from sepsis patients, providing an in vivo confirmation to our findings. Collectively, the results from the current study demonstrate CD16 as a key regulator of the TRIF-dependent TLR4 pathway in human monocytes and their CD16-expressing subset, with implications in sepsis.
  The Journal of Immunology 03/2012; 188(8):3584-93. · 5.79 Impact Factor
• Source

  Available from: Rosa Del Campo

  Article: Translocated LPS might cause endotoxin tolerance in circulating monocytes of cystic fibrosis patients.

  Rosa del Campo, Eriel Martínez, Carlos del Fresno, Raquel Alenda, Vanesa Gómez-Piña, Irene Fernández-Ruíz, María Siliceo, Teresa Jurado, Victor Toledano, Francisco Arnalich, Francisco García-Río, Eduardo López-Collazo
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  ABSTRACT: Cystic Fibrosis (CF) is an inherited pleiotropic disease that results from abnormalities in the gene codes of a chloride channel. The lungs of CF patients are chronically infected by several pathogens but bacteraemia have rarely been reported in this pathology. Besides that, circulating monocytes in CF patients exhibit a patent Endotoxin Tolerance (ET) state since they show a significant reduction of the inflammatory response to bacterial stimulus. Despite a previous description of this phenomenon, the direct cause of ET in CF patients remains unknown. In this study we have researched the possible role of microbial/endotoxin translocation from a localized infection to the bloodstream as a potential cause of ET induction in CF patients. Plasma analysis of fourteen CF patients revealed high levels of LPS compared to healthy volunteers and patients who suffer from Chronic Obstructive Pulmonary Disease. Experiments in vitro showed that endotoxin concentrations found in plasma of CF patients were enough to induce an ET phenotype in monocytes from healthy controls. In agreement with clinical data, we failed to detect bacterial DNA in CF plasma. Our results suggest that soluble endotoxin present in bloodstream of CF patients causes endotoxin tolerance in their circulating monocytes.
  PLoS ONE 01/2011; 6(12):e29577. · 4.09 Impact Factor
• Article: Potent phagocytic activity with impaired antigen presentation identifying lipopolysaccharide-tolerant human monocytes: demonstration in isolated monocytes from cystic fibrosis patients.

  Carlos del Fresno, Francisco García-Rio, Vanesa Gómez-Piña, Alessandra Soares-Schanoski, Irene Fernández-Ruíz, Teresa Jurado, Tasneem Kajiji, Chen Shu, Elvira Marín, Ana Gutierrez del Arroyo, Concepción Prados, Francisco Arnalich, Pablo Fuentes-Prior, Subhra K Biswas, Subrha K Biswas, Eduardo López-Collazo
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  ABSTRACT: Monocyte exposure to LPS induces a transient state in which these cells are refractory to further endotoxin stimulation. This phenomenon, termed endotoxin tolerance (ET), is characterized by a decreased production of cytokines in response to the proinflammatory stimulus. We have established a robust model of ET and have determined the time frame and features of LPS unresponsiveness in cultured human monocytes. A large number of genes transcribed in tolerant monocytes were classified as either "tolerizable" or "nontolerizable" depending on their expression levels during the ET phase. Tolerant monocytes exhibit rapid IL-1R-associated kinase-M (IRAK-M) overexpression, high levels of triggering receptor expressed on myeloid cells-1 (TREM-1) and CD64, and a marked down-regulation of MHC molecules and NF-kappaB2. These cells combine potent phagocytic activity with impaired capability for Ag presentation. We also show that circulating monocytes isolated from cystic fibrosis patients share all the determinants that characterize cells locked in an ET state. These findings identify a new mechanism that contributes to impaired inflammation in cystic fibrosis patients despite a high frequency of infections. Our results indicate that a tolerant phenotype interferes with timing, efficiency, and outcome of the innate immune responses against bacterial infections.
  The Journal of Immunology 06/2009; 182(10):6494-507. · 5.79 Impact Factor