Ana Isabel Toro-Montoya scite author profile

Eph receptor tyrosine kinases and their ligands, the ephrins, are known to play an important role in regulating cell migration and targeting in neuronal and endothelial cells. Recently, it hasbeen shown that lymphoid cells also express Eph receptors, raising the possibility that Eph receptors may similarly regulate lymphocyte migration. Chemotaxis in response to soluble chemokine factors is an essential facet of T cell biology. We demonstrate here that T cell chemotaxis in response to both the stromal cell‐derived factor (SDF)‐1α and macrophage inflammatory protein 3β chemokines is modulated by costimulation with ephrins. Both ephrin‐A and ephrin‐B ligands were found to modify the chemotactic responses of a T cell line and primary T cells. Ephrin‐A1, in particular, strongly inhibited chemotaxis. In accordance with the tyrosine kinase activity of EphA receptors, ephrin‐A1 stimulation induced rapid intracellular tyrosine phosphorylation in T cells. Although strongly inhibiting chemotaxis, ephrin‐A1 costimulus did not affect many of the signaling events downstream of the SDF‐1α receptor CXCR4, including calcium flux and activation of MAPK. Rather, ephrin‐A1 altered the balance of small G protein activity in T cells. Ephrin‐A1 stimulation prevented SDF‐1α–induced activation of cdc42, while simultaneously inducing rho activation. Ultimately, ephrin‐A1 was found to inhibit chemokine‐induced actin polymerization, thereby blocking migration. Ubiquitous ephrin expression in vivo creates enormous potential for T cells to encounter these ligands, suggesting that Eph receptors and ephrins may be important regulators of T cell migration.

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Granzyme B mediates both direct and indirect cleavage of extracellular matrix in skin after chronic low‐dose ultraviolet light irradiation

Parkinson

Toro-Montoya

Zhao

et al. 2014

Aging Cell

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Extracellular matrix (ECM) degradation is a hallmark of many chronic inflammatory diseases that can lead to a loss of function, aging, and disease progression. Ultraviolet light (UV) irradiation from the sun is widely considered as the major cause of visible human skin aging, causing increased inflammation and enhanced ECM degradation. Granzyme B (GzmB), a serine protease that is expressed by a variety of cells, accumulates in the extracellular milieu during chronic inflammation and cleaves a number of ECM proteins. We hypothesized that GzmB contributes to ECM degradation in the skin after UV irradiation through both direct cleavage of ECM proteins and indirectly through the induction of other proteinases. Wild-type and GzmB-knockout mice were repeatedly exposed to minimal erythemal doses of solar-simulated UV irradiation for 20 weeks. GzmB expression was significantly increased in wild-type treated skin compared to nonirradiated controls, colocalizing to keratinocytes and to an increased mast cell population. GzmB deficiency significantly protected against the formation of wrinkles and the loss of dermal collagen density, which was related to the cleavage of decorin, an abundant proteoglycan involved in collagen fibrillogenesis and integrity. GzmB also cleaved fibronectin, and GzmB-mediated fibronectin fragments increased the expression of collagen-degrading matrix metalloproteinase-1 (MMP-1) in fibroblasts. Collectively, these findings indicate a significant role for GzmB in ECM degradation that may have implications in many age-related chronic inflammatory diseases.

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Serpina3n accelerates tissue repair in a diabetic mouse model of delayed wound healing

et al. 2014

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Chronic, non-healing wounds are a major complication of diabetes and are characterized by chronic inflammation and excessive protease activity. Although once thought to function primarily as a pro-apoptotic serine protease, granzyme B (GzmB) can also accumulate in the extracellular matrix (ECM) during chronic inflammation and cleave ECM proteins that are essential for proper wound healing, including fibronectin. We hypothesized that GzmB contributes to the pathogenesis of impaired diabetic wound healing through excessive ECM degradation. In the present study, the murine serine protease inhibitor, serpina3n (SA3N), was administered to excisional wounds created on the dorsum of genetically induced type-II diabetic mice. Wound closure was monitored and skin wound samples were collected for analyses. Wound closure, including both re-epithelialization and contraction, were significantly increased in SA3N-treated wounds. Histological and immunohistochemical analyses of SA3N-treated wounds revealed a more mature, proliferative granulation tissue phenotype as indicated by increased cell proliferation, vascularization, fibroblast maturation and differentiation, and collagen deposition. Skin homogenates from SA3N-treated wounds also exhibited greater levels of full-length intact fibronectin compared with that of vehicle wounds. In addition, GzmB-induced detachment of mouse embryonic fibroblasts correlated with a rounded and clustered phenotype that was prevented by SA3N. In summary, topical administration of SA3N accelerated wound healing. Our findings suggest that GzmB contributes to the pathogenesis of diabetic wound healing through the proteolytic cleavage of fibronectin that is essential for normal wound closure, and that SA3N promotes granulation tissue maturation and collagen deposition.

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TAT-mediated intracellular delivery of purine nucleoside phosphorylase corrects its deficiency in mice

Toro-Montoya¹,

Grunebaum²

2006

Journal of Clinical Investigation

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Defects in purine nucleoside phosphorylase (PNP) enzyme activity result in abnormal nucleoside homeostasis, severe T cell immunodeficiency, neurological dysfunction, and early death. Protein transduction domain (PTD) can transfer molecules into cells and may help restore PNP activity in cases of PNP deficiency. However, long-term use of PTD to replace enzymes in animal models or patients has not previously been described. We fused human PNP to the HIV-TAT PTD and found that the fusion with TAT changed the retention and distribution of PNP in PNP-deficient mice. TAT induced rapid intracellular delivery of PNP into tissues, including the brain, prevented urinary excretion of PNP, and protected PNP from neutralizing antibodies, resulting in significant extension of the enzyme's biological activity in vivo. Frequent TAT-PNP injections in PNP-deficient mice corrected the metabolic disorder and immune defects with no apparent toxicity. TAT-PNP remained effective over 24 weeks of treatment, resulting in continued improvement in immune function and extended survival. Our data demonstrate that TAT changes the properties of PNP in vivo and that long-term intracellular delivery of PNP by TAT corrects PNP deficiency in mice. We provide evidence to promote further use of PTD to treat diseases that require repeated intracellular enzyme or protein delivery.

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Ephrin-A1 Induces c-Cbl Phosphorylation and EphA Receptor Down-Regulation in T Cells

Sharfe

Freywald

Toro-Montoya

et al. 2003

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Eph receptor tyrosine kinases are expressed by T lineage cells, and stimulation with their ligands, the ephrins, has recently been shown to modulate T cell behavior. We show that ephrin-A1 stimulation of Jurkat T cells induces tyrosine phosphorylation of EphA3 receptors and cytoplasmic proteins, including the c-cbl proto-oncogene. Cbl phosphorylation was also observed in peripheral blood T cells. In contrast, stimulation of Jurkat cells with the EphB receptor ligand ephrin-B1 does not cause Cbl phosphorylation. EphA activation also induced Cbl association with Crk-L and Crk-II adapters, but not the related Grb2 protein. Induction of Cbl phosphorylation upon EphA activation appeared to be dependent upon Src family kinase activity, as Cbl phosphorylation was selectively abrogated by the Src family inhibitor 4-amino-5(4-chlorophenyl-7-(tert-butyl)pyrazolo[3,4-d]pyrimidine, while EphA phosphorylation was unimpaired. Ephrin-A1 stimulation of Jurkat cells was also found to cause down-regulation of endogenous EphA3 receptors from the cell surface and their degradation. In accordance with the role of Cbl as a negative regulator of receptor tyrosine kinases, overexpression of wild-type Cbl, but not its 70-Z mutant, was found to down-regulate EphA receptor expression. Receptor down-regulation could also be inhibited by blockage of Src family kinase activity. Our findings show that EphA receptors can actively signal in T cells, and that Cbl performs multiple roles in this signaling pathway, functioning to transduce signals from the receptors as well as regulating activated EphA receptor expression.

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SARS-CoV-2/COVID-19: el virus, la enfermedad y la pandemia

Díaz-Castrillón

Toro-Montoya

2020

Med. Lab.

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El brote de la enfermedad por coronavirus 2019 (COVID-19), causado por el virus del síndrome respiratorio agudo severo tipo-2 (SARS-CoV-2), fue declarado como una pandemia en marzo de 2020. Las tasas de letalidad se estiman entre 1% y 3%, afectando principalmente a los adultos mayores y a aquellos con comorbilidades, como hipertensión, diabetes, enfermedad cardiovascular y cáncer. El periodo de incubación promedio es de 5 días, pero puede ser hasta de 14 días. Muchos pacientes infectados son asintomáticos; sin embargo, debido a que liberan grandes cantidades de virus, son un desafío permanente para contener la propagación de la infección, causando el colapso de los sistemas de salud en las áreas más afectadas. La vigilancia intensa es vital para controlar la mayor propagación del virus, y el aislamiento sigue siendo el medio más efectivo para bloquear la transmisión. Este artículo tiene como objetivo revisar el virus causante de esta nueva pandemia COVID-19 que afecta al mundo, mayor aún que la de influenza A H1N1 en 2009, la cual significó la muerte de cientos de miles de personas en todo el mundo. Se abordan temas como el patógeno, la epidemiología, las manifestaciones clínicas, el diagnóstico y el tratamiento.

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PCR activity of CMV in healthy CMV-seropositive individuals: does latency need redefinition?

Toro-Montoya

Ossa

1996

Research in Virology

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