Abstract
Mammary gland epithelial dysfunction is one of the serious consequences of subchronic dietary vitamin A deficiency (VAD). However, the underlying mechanism of this process is incompletely known. Consequently, we utilized a virgin rat model of dietary VAD (3 and 6 months) and subsequently intervened with a vitamin A sufficient (VAS) diet (0.5 or 1 month) prior to treatment completion. This experimental model allowed us to investigate the underlying molecular mechanism of mammary gland tissue dysfunction caused by VAD. Dietary VAD for 3 and 6 months caused increased inflammatory cell infiltration in the mammary gland parenchyma and glandular cells, with increased inflammation and apoptosis and reduced cell proliferation. These changes can be reversed with a VAS diet. Imbalances between the NF-κB and retinoic acid (RA) signaling pathways underlie mammary gland dysfunction following subchronic VAD. Nulliparous rats fed a VAD diet experience mammary gland epithelial dysfunction because of inflammation, apoptosis, and impaired cell growth.