AbstractPrototheca zopfiiis an alga increasingly isolated from bovine mastitis. Of the two genotypes ofP. zopfii(genotype I and II (GT-I and II)),P. zopfiiGT-II is the genotype associated with acute mastitis and decreased milk production by unknown mechanisms. The objective was to determine inflammatory and apoptotic roles ofP. zopfiiGT-II in cultured mammary epithelial cells (from cattle and mice) and murine macrophages and using a murine model of mastitis.Prototheca zopfiiGT-II (but not GT-I) invaded bovine and murine mammary epithelial cells (MECs) and induced apoptosis, as determined by the terminal deoxynucleotidyl transferase mediated deoxyuridine triphosphate nick end labeling assay. ThisP. zopfiiGT-II driven apoptosis corresponded to mitochondrial pathways; mitochondrial transmembrane resistance (ΔΨm) was altered and modulation of mitochondrion-mediated apoptosis regulating genes changed (increased transcriptionalBax, cytochrome-c andApaf-1and downregulatedBcl-2), whereas caspase-9 and -3 expression increased. Apoptotic effects byP. zopfiiGT-II were more pronounced in macrophages compared to MECs. In a murine mammary infection model,P. zopfiiGT-II replicated in the mammary gland and caused severe inflammation with infiltration of macrophages and neutrophils and upregulation of pro-inflammatory genes (TNF-α,IL-1βandCxcl-1) and also apoptosis of epithelial cells. Thus, we concludedP. zopfiiGT-II is a mastitis-causing pathogen that triggers severe inflammation and also mitochondrial apoptosis.Author summaryBovine mastitis (inflammation of the udder) reduces milk production and quality, causing huge economic losses in the dairy industry worldwide. Although the algaPrototheca zopfiiis a major cause of mastitis in dairy cows, mechanisms by which it damages mammary tissues are not well known. Here, we used cell cultures and a mouse model of mastitis to determine howProtothecacaused inflammation and cell death in mammary tissues.Protothecainvaded mammary gland cells, from cattle and mice, as well as macrophages (white cells that take up and kill pathogens) and caused cell death by interfering with mitochondria. Furthermore,Protothecacauses severe inflammation and tissue damage when injected into the mammary glands of mice. Although there are two genotypes ofP. zopfii, only genotype II causes tissue damage, whereas gentotype I, common in farm environments, does not damage mammary tissues. SinceP. zopfiiis an alga and not a bacterium, antibiotic treatments, frequently used to treat mastitis in cattle, are not effective against this organism. Understanding howP. zopfiidamages mammary tissue and causes mastitis is important new knowledge to promote future development of evidence-based approaches to prevent and treat mammary gland infections with this organism.
Neoplastic transformation of mammary epithelial cells in rats is associated with decreased apoptotic cell death