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Lente Gréta

Lente Gréta

Name: Lente Gréta

Other profiles: MTMT

Publication list

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Uploaded publications:

7

Publications in DEA:

7

OA:

6

Date range:

2019-2024

2024

Tóth, A., Lente, G., Csiki, D., Balogh, E., Szöőr, Á., Nagy, B., Jeney, V.: Activation of PERK/eIF2α/ATF4/CHOP branch of endoplasmic reticulum stress response and cooperation between HIF-1α and ATF4 promotes Daprodustat-induced vascular calcification.
Front. Pharmacol. 15 1-12, 2024.

Journal metrics:

Q1 Pharmacology (2023)
Q1 Pharmacology (medical) (2023)
Ababneh, H., Balogh, E., Csiki, D., Lente, G., Fenyvesi, F., Tóth, A., Jeney, V.: High glucose promotes osteogenic differentiation of human lens epithelial cells through hypoxia-inducible factor (HIF) activation.
J. Cell. Physiol. 239 (5), 1-12, 2024.

Journal metrics:

Q2 Cell Biology (2023)
Q1 Clinical Biochemistry (2023)
Q1 Physiology (2023)
Ababneh, H., Tóth, A., Lente, G., Balogh, E., Csiki, D., Nagy, B., Szöőr, Á., Jeney, V.: High phosphate and calcium induce osteoblastic phenotype switching and calcification of corneal epithelial cells in a Runx2-dependent and synergistic manner; a possible mechanism of chronic kidney disease-associated corneal calcification.
Biochim. Biophys. Acta. Mol. Basis Dis. 1870 (5), 1-20, 2024.

Journal metrics:

Q1 Molecular Biology (2023)
Q1 Molecular Medicine (2023)

2023

Csiki, D., Ababneh, H., Tóth, A., Lente, G., Szöőr, Á., Tóth, A., Fillér, C., Juhász, T., Nagy, B., Balogh, E., Jeney, V.: Hypoxia-inducible factor activation promotes osteogenic transition of valve interstitial cells and accelerates aortic valve calcification in a mice model of chronic kidney disease.
Front. Cardiovasc. Med. 10 1-15, 2023.

Journal metrics:

Q2 Cardiology and Cardiovascular Medicine

2022

Tóth, A., Csiki, D., Nagy, B., Balogh, E., Lente, G., Ababneh, H., Szöőr, Á., Jeney, V.: Daprodustat Accelerates High Phosphate-Induced Calcification Through the Activation of HIF-1 Signaling.
Front. Pharmacol. 13 1-12, 2022.

Journal metrics:

Q1 Pharmacology
Q1 Pharmacology (medical)

2020

Sári, Z., Mikó, E., Kovács, T., Jankó, L., Csonka, T., Lente, G., Sebő, É., Tóth, J., Tóth, D., Árkosy, P., Boratkó, A., Ujlaki, G., Török, M., Kovács, I., Szabó, J., Kiss, B., Méhes, G., Goedert, J., Bai, P.: Indolepropionic Acid, a Metabolite of the Microbiome, Has Cytostatic Properties in Breast Cancer by Activating AHR and PXR Receptors and Inducing Oxidative Stress.
Cancers (Basel). 12 (9), 1-27, 2020.

Journal metrics:

Q2 Cancer Research
Q1 Oncology

2019

Kovács, T., Mikó, E., Vida, A., Sebő, É., Tóth, J., Csonka, T., Boratkó, A., Ujlaki, G., Lente, G., Kovács, P., Tóth, D., Árkosy, P., Kiss, B., Méhes, G., Goedert, J., Bai, P.: Cadaverine, a metabolite of the microbiome, reduces breast cancer aggressiveness through trace amino acid receptors.
Sci Rep. 9 (1), 1-14, 2019.

Journal metrics:

D1 Multidisciplinary

updated: 2024-11-10, 02:07