Myocardial infarction (MI) is caused by the formation of plaques in the arterial walls, leading to a decrease of blood flow to the heart and myocardium injury due to hypoxia. Ferroptosis is a crucial event in myocardial injury, and icariin (ICA) exerts protective effects against myocardial injury.Here, we investigated the protective mechanism of ICA in hypoxia/reoxygenation (H/R)-induced ferroptosis of cardiomyocytes. H9C2 cells were subjected to H/R induction. The content of lactate dehydrogenase (LDH) and the levels of oxidative stress and intracellular ferrous ion Fe 2+ were measured. The levels of ferroptosis markers (ACSL4 and GPX4) were detected. H/R-induced H9C2 cells were cultured with ICA in the presence or absence of ferroptosis inducer (erastin).Znpp (an HO-1 inhibitor) was added to ICA-treated H/R cells to verify the role of the Nrf2/HO-1 pathway. H/R-induced H9C2 cells showed reduced viability, enhanced oxidative stress and LDH content, increased levels of Fe 2+ and ACSL4, and decreased levels of GPX4. ICA inhibited H/R-induced ferroptosis and oxidative stress in cardiomyocytes. Erastin treatment reversed the inhibitory effect of ICA on ferroptosis in H/R cells. The expression of Nrf2 and HO-1 in H/R-induced H9C2 cells was reduced, while ICA treatment reversed this trend. Inhibition of the Nrf2/HO-1 pathway reversed the protective effect of ICA on H/R-induced ferroptosis.Collectively, our results suggest that ICA attenuates H/R-induced ferroptosis of cardiomyocytes by activating the Nrf2/HO-1 signaling pathway.
A series of aqueous latexes with solid contents of 56%-59% were synthesized by binary emulsion copolymerization of vinylidene chloride (VDC) with an acrylate, namely methyl acrylate (MA), ethyl acrylate (EA), butyl acrylate (BA), hexyl acrylate (HA), or 2-ethylhexyl acrylate (EHA). Differential scanning calorimetry (DSC) and Fourier-transform infrared (FTIR) spectroscopy showed that the acrylate units with short ester side-chains, such as MA and EA, made the copolymers hard and the crystallization tendency of their PVDC segments was reduced. Hydrophobic acrylates with relatively long ester groups, such as HA and EHA, gave flexible copolymers, and favored the crystallization of their PVDC segments. BA endowed the copolymers with medium flexibility and crystallization tendency. As coating materials, the copolymers bearing MA and EA adhered poorly to the tinplate before or after 100 hr of salt-spray corrosion, whereas those bearing BA, HA, or EHA showed good adhesion to tinplate when they had little or no crystallinity. After 100 hr of salt-spray corrosion, only BA-VDC80, containing 80% VDC, retained both excellent adhesion to metal and excellent barrier performance. Further study demonstrated that BA-VDC80 could protect tinplate from rusting for at least 250 hr under harsh salt-spray corrosion. Scanning electron microscopy, FTIR-attenuated total reflectance spectroscopy and DSC were used to evaluate the corroded BA-VDC80 film.
Aqueous latexes of
copolymers of vinylidene chloride (VDC) with
an acrylate, namely, methyl acrylate (MA), ethyl acrylate (EA), butyl
acrylate (BA), or 2-ethylhexyl acrylate (EHA), were employed to form
a double-layer coating film for the heavy-duty anticorrosion of metal.
Measurements of the water-vapor transmission rate and oxygen-gas transmission
rate and electrochemical impedance spectroscopy (EIS) demonstrated
that the barrier properties of MA–VDC and EA–VDC films
were better than those of BA–VDC and EHA–VDC films.
Among the MA–VDC and EA–VDC coatings, EA–VDC85
showed better comprehensive properties and, thus, was selected as
the top layer of the designed double-layer coating film. Adhesion
tests demonstrated that the BA–VDC and EA–VDC coatings
had better adhesion to tinplates than the MA–VDC and EA–VDC
coatings and, thus, were suitable for use as the bottom layer of the
designed double-layer coating film. The characterizations of the double-layer
coating films by adhesion tests and EIS showed that BA–VDC75
was the optimal bottom layer. Under harsh salt-spray corrosion conditions,
the optimal double-layer coating film (ca. 50-μm thickness)
with EA–VDC85 as the top layer and BA–VDC75 as the bottom
layer could protect tinplate well for at least 800 h, and the adhesion
of the coating film to the tinplate was still excellent even after
1000 h of corrosion. Scanning electron microscopy, differential scanning
calorimetry, and Fourier-transform infrared spectroscopy were used
to evaluate the corroded double-layer coating films.
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