Your search keyword '"López-Valdez N"' showing total 17 results

1. Inhalation of vanadium pentoxide and its toxic effects in a mouse model

Author

Fortoul, T.I., Rodriguez-Lara, V., González-Villalva, A., Rojas-Lemus, M., Cano-Gutiérrez, G., Ustarroz-Cano, M., Colín-Barenque, L., Bizarro-Nevares, P., García-Pealez, I., Montaño, L.F., Jimenez-Martinez, R.S., Lopez-Valdez, N., Ruiz-Guerrero, M.L., Meléndez-García, N.A., García-Ibarra, F.A., Martínez-Baez, V., Alfaro, D. Zapata, Muñiz-Rivera-Cambas, A., López-Zepeda, L.S., Quezada-Maldonado, E.M., and Cervantes-Yépez, S.

Published

2014

2. Health Effects of Metals in Particulate Matter

Author

Fortoul, T.I., primary, Rodriguez-Lara, V., additional, Gonzalez-Villalva, A., additional, Rojas-Lemus, M., additional, Colin-Barenque, L., additional, Bizarro-Nevares, P., additional, García-Peláez, I., additional, Ustarroz-Cano, M., additional, López-Zepeda, S., additional, Cervantes-Yépez, S., additional, López-Valdez, N., additional, Meléndez-García, N., additional, Espinosa-Zurutuza, M., additional, Cano-Gutierrez, G., additional, and Cano-Rodríguez, M.C., additional

Published

2015

3. Health Effects of Metals in Particulate Matter

Author

Fortoul, T.I., Rodriguez-Lara, V., Gonzalez-Villalva, A., Rojas-Lemus, M., Colin-Barenque, L., Bizarro-Nevares, P., García-Peláez, I., Cano, M. Ustarroz, López-Zepeda, S., Cervantes-Yépez, S., López-Valdez, N., Meléndez-García, N., Espinosa-Zurutuza, M., and Cano-Rodríguez, G. Cano-Gutierrez and M.C.

Published

2015

4. CYP1A1 and 1A2 activity evaluation in a murine model of vanadium inhalation

Author

López-Valdez, N., primary, Espinosa-Aguirre, J.J., additional, Cerbón-Cervantes, M.A., additional, and Fortoul, T.I., additional

Published

2016

5. Free radicals and health effects

Author

Teresa Fortoul, Rodríguez-Lara, V., Cano-Gutiérrez, G., Gonzalez-Villalva, A., Colín-Barenque, L., Santamaría, A., Ustarroz-Cano, M., García-Peláez, I., López-Valdez, N., Falcón-Rodríguez, C. I., Pedraza-Chaverri, J., Bizarro-Nevares, P., Montaño, L. F., and Carrillo-Mora, P.

6. The multiple facets of the club cell in the pulmonary epithelium.

Author

López-Valdez N, Rojas-Lemus M, Bizarro-Nevares P, González-Villalva A, Casarrubias-Tabarez B, Cervantes-Valencia ME, Ustarroz-Cano M, Morales-Ricardes G, Mendoza-Martínez S, Guerrero-Palomo G, and Fortoul TI

Subjects

Humans, Animals, Bronchioles pathology, Epithelial Cells physiology, Epithelial Cells pathology, Stem Cells, Respiratory Mucosa pathology, Respiratory Mucosa cytology, Lung pathology, Lung cytology

Abstract

The non-ciliated bronchiolar cell, also referred to as "club cell", serves as a significant multifunctional component of the airway epithelium. While the club cell is a prominent epithelial type found in rodents, it is restricted to the bronchioles in humans. Despite these differences, the club cell's importance remains undisputed in both species due to its multifunctionality as a regulatory cell in lung inflammation and a stem cell in lung epithelial regeneration. The objective of this review is to examine different aspects of club cell morphology and physiology in the lung epithelium, under both normal and pathological conditions, to provide a comprehensive understanding of its importance in the respiratory system., (©The Author(s) 2024. Open Access. This article is licensed under a Creative Commons CC-BY International License.)

Published

2024

7. Evaluation of genotoxic damage, production reactive oxygen and nitrogen species in Plasmodium yoelii yoelii exposed to sodium metavanadate.

Author

Casarrubias-Tabarez B, Rivera-Fernández N, Alarcón-Herrera N, Guerrero-Palomo G, Rojas-Lemus M, López-Valdez N, Anacleto-Santos J, Gonzalez-Villalva A, Ustarroz-Cano M, and Fortoul TI

Subjects

Animals, Mice, Malaria drug therapy, Male, Parasitemia, Female, Plasmodium yoelii drug effects, DNA Damage drug effects, Reactive Oxygen Species metabolism, Antimalarials toxicity, Antimalarials pharmacology, Reactive Nitrogen Species metabolism, Vanadates toxicity, Vanadates pharmacology

Abstract

Malaria represents the greatest global health burden among all parasitic diseases, with drug resistance representing the primary obstacle to control efforts. Sodium metavanadate (NaVO 3 ) exhibits antimalarial activity against the Plasmodium yoelii yoelii (Pyy), yet its precise antimalarial mechanism remains elusive. This study aimed to assess the antimalarial potential of NaVO 3 , evaluate its genotoxicity, and determine the production of reactive oxygen and nitrogen species (ROS/RNS) in Pyy. CD-1 mice were infected and divided into two groups: one treated orally with NaVO 3 (10 mg/kg/day for 4 days) and the other untreated. A 50% decrease in parasitemia was observed in treated mice. All experimental days demonstrated DNA damage in exposed parasites, along with an increase in ROS and RNS on the fifth day, suggesting a possible parasitostatic effect. The results indicate that DNA is a target of NaVO 3 , but further studies are necessary to fully elucidate the mechanisms underlying its antimalarial activity., Competing Interests: Declaration of Competing Interest The authors declare the following financial interests/personal relationships which may be considered as potential competing interests: Teresa I. Fortoul, M.D., Ph.D. reports financial support was provided by National Autonomous University of Mexico. Brenda Casarrubias-Tabarez reports financial support was provided by National Autonomous University of Mexico. Author received a scholarship from the Consejo Nacional de Humanidades Ciencias y Tecnologías BCT (CVU 817592) If there are other authors, they declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 Elsevier B.V. All rights reserved.)

Published

2024

8. Sex differences in vanadium inhalation effects in non-ciliated bronchiolar cells.

Author

López-Valdez N, Rojas-Lemus M, Bizarro-Nevares MP, González-Villalva AE, Ustarroz-Cano ML, Casarrubias-Tabarez B, Guerrero-Palomo G, Cervantes-Valencia ME, Rivera-Fernández N, and Fortoul TI

Subjects

Rats, Mice, Male, Female, Animals, Mice, Inbred Strains, Rats, Inbred F344, Lung, Vanadium toxicity, Sex Characteristics

Abstract

The non-ciliated bronchiolar cell (NCBC) is responsible for the defense of the lung and responds to negative stimuli such as exposure to toxic pro-oxidant substances, which triggers the hyperproduction and hypersecretion of mucins and CC16 protein. The literature demonstrates that physiological and pathological responses in the lung can be influenced by the organism's sex. The objective of this report was to evaluate response differences to vanadium (V) inhalation in male and female CD-1 mice. Mice were exposed to V for four weeks. Hyperplasia of bronchiolar epithelium, small inflammatory foci and sloughing of the NCBC were observed, without changes between sexes and throughout the exposure time. Mucosecretory metaplasia was found in both males and females, however it was more drastic in males. The expression of CC16 increased in both sexes. This study demonstrated a different susceptibility between male and female mice exposed to V inhalation regarding mucosecretory metaplasia., (©The Author(s) 2023. Open Access. This article is licensed under a Creative Commons CC-BY International License.)

Published

2023

9. Vanadium inhalation effects on the corneal ciliary neurotrophic factor (CNTF): study in a murine model.

Author

Mendoza-Aldaba I, López-Valdez N, Cervantes-Valencia ME, and Fortoul TI

Subjects

Mice, Male, Humans, Animals, Disease Models, Animal, Cornea metabolism, Ciliary Neurotrophic Factor metabolism, Vanadium toxicity

Abstract

Purpose: Air pollution is a public health problem caused by predatory human activities and the indiscriminate burning of fossil fuels that liberate particulate matter (PM) into the atmosphere. Vanadium (V) adheres to them and reaches the bloodstream and different organs such as the eye when inhaled. Another way to reach the eye is by direct contact, and the cornea is the first layer exposed. Ciliary neurotrophic factor (CNTF) is secreted by the corneal nerves and some of its functions include self-renewal maintenance and wound healing by the activation of STAT3. Previous reports from our group indicate the activation of STAT3 after the inhalation of V, adhered to PM., Objective: To analyse the effect of V inhalation in the expression of CNTF. Method: CD-1 male mice were exposed for 4 and 8 weeks to V inhalation. The eyes were removed, and the corneas were processed for immunohistochemistry for CNTF and analysed by densitometry. The same slides were used to evaluate histological modifications and to measure the corneas' anterior epithelial and endothelial thickness., Results: A decrease in CNTF expression in the anterior epithelium in the 8th week, as well as an increase in the endothelial and corneal thickness and disarray of all the layers of the anterior epithelium., Conclusion: V inhalation disturbs the architecture of the cornea and modifies the presence of CNTF which might modify the renewal of the corneas after exposure to PM air pollution.

Published

2023

10. Bioactive Peptides against Human Apicomplexan Parasites.

Author

Rivera-Fernández N, Anacleto-Santos J, Casarrubias-Tabarez B, López-Pérez TJ, Rojas-Lemus M, López-Valdez N, and Fortoul TI

Abstract

Apicomplexan parasites are the causal agents of different medically important diseases, such as toxoplasmosis, cryptosporidiosis, and malaria. Toxoplasmosis is considered a neglected parasitosis, even though it can cause severe cerebral complications and death in immunocompromised patients, including children and pregnant women. Drugs against Toxoplasma gondii , the etiological agent of toxoplasmosis, are highly toxic and lack efficacy in eradicating tissue cysts, promoting the establishment of latent infection and acute relapsing disease. Cryptosporidiosis has been recognized as the most frequent waterborne parasitosis in US outbreaks; anti-cryptosporidium drug discovery still faces a major obstacle: drugs that can act on the epicellular parasite. Severe malaria is most commonly caused by the progression of infection with Plasmodium falciparum . In recent years, great progress has been made in the field of antimalarial drugs and vaccines, although the resistance of P. falciparum to artemisinin has recently gained a foothold in Africa. As seen, the search for new drugs against these parasites remains a challenge. Peptide-based drugs seem to be attractive alternative therapeutic agents recently recognized by the pharmaceutical industry, as they can kill different infectious agents and modulate the immune response. A review of the experimental effects of bioactive peptides on these parasites follows, along with comments. In addition, some biological and metabolomic generalities of the parasites are reviewed to elucidate peptide mechanisms of action on Apicomplexan targets.

Published

2022

11. Toxic Effects of Inhaled Vanadium Attached to Particulate Matter: A Literature Review.

Author

Rojas-Lemus M, López-Valdez N, Bizarro-Nevares P, González-Villalva A, Ustarroz-Cano M, Zepeda-Rodríguez A, Pasos-Nájera F, García-Peláez I, Rivera-Fernández N, and Fortoul TI

Subjects

Administration, Inhalation, Animals, Fossil Fuels, Mice, Particulate Matter analysis, Particulate Matter toxicity, Vanadium toxicity, Air Pollutants analysis, Air Pollutants toxicity, Neurotoxicity Syndromes

Abstract

Environmental pollution is a worldwide problem recognized by the World Health Organization as a major health risk factor that affects low-, middle- and high-income countries. Suspended particulate matter is among the most dangerous pollutants, since it contains toxicologically relevant agents, such as metals, including vanadium. Vanadium is a transition metal that is emitted into the atmosphere especially by the burning of fossil fuels to which dwellers are exposed. The objective of this literature review is to describe the toxic effects of vanadium and its compounds when they enter the body by inhalation, based especially on the results of a murine experimental model that elucidates the systemic effects that vanadium has on living organisms. To achieve this goal, we reviewed 85 articles on the relevance of vanadium as a component of particulate matter and its toxic effects. Throughout several years of research with the murine experimental model, we have shown that this element generates adverse effects in all the systems evaluated, because it causes immunotoxicity, hematotoxicity, neurotoxicity, nephrotoxicity and reprotoxicity, among other noxious effects. The results with this experimental model add evidence of the effects generated by environmental pollutants and increase the body of evidence that can lead us to make more intelligent environmental decisions for the welfare of all living beings.

Published

2021

12. A brief review of the biology of megakaryocytes and platelets and their role in thrombosis associated with particulate air pollution.

Author

Gonzalez-Villalva A, Bizarro-Nevares P, Rojas-Lemus M, Ustarroz-Cano M, López-Valdez N, García-Peláez I, Albarrán-Alonso JC, Barbosa-Barrón F, and Fortoul TI

Subjects

Blood Platelets metabolism, Humans, Thrombosis chemically induced, Air Pollutants adverse effects, Blood Platelets drug effects, Megakaryocytes drug effects, Particulate Matter adverse effects, Thrombosis etiology

Abstract

Air pollution is a worldwide public health issue and it is associated with millions of premature deaths due to cancer, thrombosis, and pulmonary and cardiovascular diseases. Thrombosis is the excessive clotting that blocks a blood vessel, and its etiology is multifactorial. In recent years, growing evidence has linked air pollution, especially particulate matter (PM) and metals, to the development of thrombosis. PM and metals induce lung and systemic inflammation and oxidative stress that are frequent mechanisms in thrombosis. Platelets are important effectors of physiological hemostasis and pathological thrombosis. They are responsible for the formation of the initial plug and are important in the cellular model of coagulation. Therefore, any changes in their morphology or function or an increase in activation could be extremely relevant in thrombosis. Megakaryocytes (MKs) in the bone marrow and in the lungs are the precursor cells of platelets, and the latter is the first organ injured by air pollution. There is substantial evidence of the effect that PM and metals have on platelets, but there is almost no research about the effect of PM and metals on MKs. It is very likely that the alterations produced by air pollution originate in these cells. In this article, we review the biology of MKs and platelets and their role in particulate air pollution-related thrombosis to emphasize the need for further research in this field.

Published

2021

13. Evaluation of the genotoxicity, cytotoxicity and antimalarial effect of sodium metavanadate po in a Plasmodium yoelii yoelii infected murine model.

Author

Casarrubias-Tabarez B, Rivera-Fernández N, Rojas-Lemus M, López-Valdez N, and Fortoul TI

Abstract

Malaria is a parasitic disease with the highest morbidity and mortality worldwide and antimalarial drug resistance has increased in last two decades. Chloroquine and artemisinin which were usedfor the treatment of malaria are also reported with resistances. Recently, some metallic compounds of ruthenium and iridium have been used as possible therapeutic agents against other parasites such as Leishmania and Trypanosoma cruzi. Organic and inorganic compounds of vanadium such as metavanadate, have been used lately because its therapeutic properties as antineoplastic and hypoglycemic agents. In this study we evaluated the genotoxicity and cytotoxicity of metavanadate per os and its working dose, as a previous step for the future use of metavanadate as anti-parasitic agent in a Plasmodium yoelii yoelii malarial lethal model. Our findings suggest that 10 mg/kg is a safe dose that decreases parasitemia and increases the survival of the Plasmodium yoelii yoelii infected mice with no evidence of genotoxicity, cytotoxicity with the dose selected., Competing Interests: The authors report no declarations of interest., (© 2020 The Author(s).)

Published

2020

14. The role of the non-ciliated bronchiolar cell in tolerance to inhaled vanadium of the bronchiolar epithelium.

Author

López-Valdez N, Guerrero-Palomo G, Rojas-Lemus M, Bizarro-Nevares P, Gonzalez-Villalva A, Ustarroz-Cano M, Rivera-Fernández N, and Fortoul TI

Subjects

Animals, Mice, Air Pollutants toxicity, Anti-Inflammatory Agents metabolism, Epithelium metabolism, Epithelium pathology, Inflammation, Inhalation, Lung metabolism, Particulate Matter toxicity, Bronchioles cytology, Bronchioles metabolism, Bronchioles pathology, Epithelial Cells metabolism, Epithelial Cells pathology, Uteroglobin metabolism, Vanadium toxicity

Abstract

The Non-Ciliated Bronchiolar Cell (NCBC) is responsible for the defense and maintenance of the bronchiolar epithelium. Several cellular defense mechanisms have been associated with an increase in the secretion of CC16 and changes in the phenotype of the cell; these mechanisms could be linked to tolerance to the damage due to exposure to inhaled Particulate Matter (PM) of the epithelium. These defense mechanisms have not been sufficiently explored. In this article, we studied the response of the NCBC to inhaled vanadium, an element which adheres to PM. This response was measured by the changes in the phenotype of the NCBC and the secretion of CC16 in a mouse model. Mice were exposed in two phases to different vanadium concentrations; 1.27 mg/m³ in the first phase and 2.56 mg/m³ in the second phase. Mice were sacrificed on the 2nd, 4th, 5th, 6th and 8th weeks. In the second phase, we observed the following: sloughing of the NCBC, hyperplasia and small inflammatory foci remained without changes and that the expression of CC16 was higher in this phase than in phase I. We also observed a change in the phenotype with a slow decrease in both phases. The increase in the secretion of CC16 and the phenotype reversion could be due to the anti-inflammatory activity of CC16. The changes observed in the second phase could be attributed to the tolerance to inhaled vanadium.

Published

2020

15. Changes in Ovarian and Uterine Morphology and Estrous Cycle in CD-1 Mice After Vanadium Inhalation.

Author

Meléndez-García N, García-Ibarra F, Bizarro-Nevares P, Rojas-Lemus M, López-Valdez N, González-Villalva A, Ayala-Escobar ME, García-Vázquez F, and Fortoul TI

Subjects

Administration, Inhalation, Animals, Estradiol blood, Estrogen Receptor alpha metabolism, Female, Mice, Ovary pathology, Progesterone blood, Uterus metabolism, Uterus pathology, Estrous Cycle drug effects, Ovary drug effects, Uterus drug effects, Vanadium toxicity

Abstract

Vanadium is a metal present in particulate matter and its reprotoxic effects have been demonstrated in males and pregnant females in animal models. However, the effects of this metal on the reproductive organs of nonpregnant females have not been sufficiently studied. In a vanadium inhalation model in nonpregnant female mice, we found anestrous and estrous cycle irregularity, as well as low serum concentrations of 17β-estradiol and progesterone. A decrease in the diameter of secondary and preovulatory follicles, as well as a thickening of the myometrium and endometrial stroma, was observed in the vanadium-treated mice. There was no difference against the control group with respect to the presence of the estrogen receptor α in the uterus of the animals during the estrous stage. Our results indicate that when vanadium is administered by inhalation, effects are observed on the female reproductive organs and the production of female sex hormones.

Published

2020

16. Pollution by metals: Is there a relationship in glycemic control?

Author

González-Villalva A, Colín-Barenque L, Bizarro-Nevares P, Rojas-Lemus M, Rodríguez-Lara V, García-Pelaez I, Ustarroz-Cano M, López-Valdez N, Albarrán-Alonso JC, and Fortoul TI

Subjects

Animals, Blood Glucose metabolism, Humans, Hyperglycemia metabolism, Hypoglycemia metabolism, Insulin blood, Insulin Resistance, Environmental Pollutants toxicity, Hyperglycemia chemically induced, Hypoglycemia chemically induced, Metals toxicity

Abstract

There are evidences of environmental pollution and health effects. Metals are pollutants implicated in systemic toxicity. One of the least studied effects, but which is currently becoming more important, is the effect of metals on glycemic control. Metals have been implicated as causes of chronic inflammation and oxidative stress and are associated to obesity, hyperglycemia and even diabetes. Arsenic, iron, mercury, lead, cadmium and nickel have been studied as a risk factor for hyperglycemia and diabetes. There is another group of metals that causes hypoglycemia such as vanadium, chromium, zinc and magnesium by different mechanisms. Zinc, magnesium and chromium deficiency is associated with increased risk of diabetes. This review summarizes some metals involved in glycemic control and pretends to alert health professionals about considering environmental metals as an important factor that could explain the poor glycemic control in patients. Further studies are needed to understand this poorly assessed problem., (Copyright © 2016 Elsevier B.V. All rights reserved.)

Published

2016

17. Myocardial connexin-43 and N-Cadherin decrease during vanadium inhalation.

Author

Fortoul TI, Soto-Mota A, Rojas-Lemus M, Rodriguez-Lara V, Gonzalez-Villalva A, Montaño LF, Paez A, Colin-Barenque L, López-Valdez N, Cano-Gutiérrez G, Bizarro-Nevares P, and Ustarroz-Cano M

Subjects

Air Pollution, Animals, Immunohistochemistry, Male, Mice, Cadherins metabolism, Connexin 43 metabolism, Heart drug effects, Myocardium metabolism, Particulate Matter toxicity, Vanadium toxicity

Abstract

Particulate matter air pollution has considerably increased during the last decades; vanadium is a transition element adhered to this particulate matter, and the combustion of fossil fuels is the main source in the atmosphere. It has been reported that air pollution and specifically vanadium exposure increases the probability of suffering arrhythmias; however the biological mechanism of such a relationship remains unknown. It has been established that a diminished presence of N-Cadherin alters the Connexin-43 arrangement, and the consequent altered presence of these proteins predisposes to ventricular heart rate problems. We analyzed myocardial histology and the expression of N-Cadherin and Connexin-43 by immunohistochemistry in mouse that inhaled vanadium. Our results showed a significant and progressive reduction in both N-Cadherin and Connexin-43, as well as the presence of meganucleus; myofibrils disruption, and clumping in the exposed groups were also observed. Our findings add more information about a possible explanation for the arrythmogenic effect observed in dwellers of cities with high particulate matter atmospheric pollution.

Published

2016