Gibberellic Acid Initiates ER Stress and Activation of Differentiation in Cultured Human Immortalized Keratinocytes HaCaT and Epidermoid Carcinoma Cells A431

Overview

Journal Pharmaceutics

Publisher MDPI

Date 2021 Nov 27

PMID 34834228

Citations 2

Authors

Mariya Vildanova

Polina Vishnyakova

Aleena Saidova

Victoria Konduktorova

Galina Onishchenko

Elena Smirnova

Affiliations

Soon will be listed here.

Abstract

Diterpenoid plant hormone gibberellic acid (GA) plays an important role in regulation of plant growth and development and is commonly used in agriculture for activation of plant growth and food production. It is known that many plant-derived compounds have miscellaneous biological effects on animals and humans, influencing specific cellular functions and metabolic pathways. However, the effect of GA on animal and human cells remains controversial. We investigated the effect of GA on cultured human cell lines of epidermoid origin-immortalized non-tumorigenic keratinocytes HaCaT and carcinoma A431 cells. We found that at a non-toxic dose, GA upregulated the expression of genes associated with the ER stress response-, , in both cell lines, and predominantly in A431 cells. We also showed that GA was more effective in upregulating the production of ER stress marker GRP78, autophagy marker LC3B-II, and differentiation markers involucrin and filaggrin in A431 cells than in HaCaT. We conclude that GA induces mild ER stress in both cell lines, followed by the activation of differentiation via upregulation of autophagy. However, in comparison with immortalized keratinocytes HaCaT, GA is more effective in inducing differentiation of carcinoma A431 cells, probably due to the inherently lower differentiation status of A431 cells. The activation of differentiation in poorly differentiated and highly malignant A431 cells by GA may lower the level of malignancy of these cells and decrease their tumorigenic potential.

Citing Articles

Bioactive Molecules from Plants: Discovery and Pharmaceutical Applications.

Bergonzi M, Heard C, Garcia-Pardo J Pharmaceutics. 2022; 14(10).

PMID: 36297551 PMC: 9608623. DOI: 10.3390/pharmaceutics14102116.

The Role of Endoplasmic Reticulum Stress in Differentiation of Cells of Mesenchymal Origin.

Turishcheva E, Vildanova M, Onishchenko G, Smirnova E Biochemistry (Mosc). 2022; 87(9):916-931.

PMID: 36180988 PMC: 9483250. DOI: 10.1134/S000629792209005X.

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