Mammary gland

Farm animals produce recombinant proteins less expensively than bacteria or cells in culture because the farm animals produce large volumes of milk containing up to 5 g/L of recombinant protein. In addition, modifications to the proteins that can be performed only by mammalian cells are made by the cells of the mammary gland. Therefore, numerous pharmaceuticals that previously could only be made by cells in culture or extracted from human tissue or blood are being produced by lactating farm animals. 

In an animal study of rats exposed by inhalation to ethylene oxide at 10, 33, or 100 ppm for approximately two years (245), and in a separate chronic rat study in which rats were exposed to 50 or 100 ppm of ethylene oxide (240), increased incidences of mononuclear cell leukemia, peritoneal mesothelioma, and various brain tumors have been reported. In an NTP (246) two-year inhalation study of mice at 50 and 100 ppm, alveolar/bronchiolar carcinomas and adenomas, papillary cystadenomas of the harderian gland, and malignant lymphomas, uterine adenocarcinomas, and mammary gland tumors were increased in one or both exposure groups. 

Milch-bestandteil, m. constituent of milk, -bier, n. kumiss, -driise, /. mammary gland lacteal gland. 

In agreement with abundant mRNA in mammary gland, high levels of apelin are present in bovine colostrum oral intake of apelin might modulate immune responses in neonates [4]. 

ERa 6q25.1 595 aa 17(3-Estradiol (E2) AGGTCA Ovary, uterus, mammary gland, vagina, testis (Leydig cells), bone... 

Analysis of ERa-deficient mice showed that both sexes are infertile and display a variety of phenotypic changes associated with the gonads, mammary glands, reproductive tracts, and skeletal tissues. In addition,... 

Ritter CL, Malejka-Giganti D. 1982. Mixed function oxidase in the mammary gland and liver microsomes of lactating rats. Biochem Pharmacol 31 239-247. 

D-Galactose Hydrolysis of lactose. Can be changed to glucose in the liver and metabolized. Synthesized in the mammary gland to make the lactose of milk. A constituent of glycolipids and glycoproteins. Failure to metabolize leads to galactosemia and cataract. 

Figure 20-6. Pathway of conversion of (A) galactose to glucose in the liver and (B) glucose to lactose in the lactating mammary gland.

This system is present in many tissues, including hver, kidney, brain, lung, mammary gland, and adipose tissue. Its cofactor requirements include NADPfl, ATP, Mn, biotin, and HC03 (as a source of CO2). Acetyl-CoA is the immediate substrate, and free palmitate is the end product. 

There are striking similarities in the mechanisms of formation of chylomicrons by intestinal cells and of VLDL by hepatic parenchymal cells (Figure 25—2), perhaps because—apart from the mammary gland—the intestine and liver are the only tissues from which particulate lipid is secreted. Newly secreted or nascent chylomicrons and VLDL contain only a small amount of apolipoproteins C and E, and the frill complement is acquired from HDL in the circulation (Figures 25—3 and 25-4). Apo B is essential for chylomicron and VLDL formation. In abetalipoproteinemia (a rare disease), lipoproteins containing apo B are not formed and lipid droplets accumulate in the intestine and liver. 

SANTELL R c, CHANG Y c, NAIR M G and HELFERICH w G (1997) Dietary genistein exerts estrogenic effects upon the uterus, mammary gland and the hypothalamic/pituitary axis in rats. . 1 Nutr. 127 (2) 263-9. 

The First International Symposium on Disease Prevention by IP6 and other Rice Bran Components. was conducted in Kyoto, Japan on June 8-9, 1998. Scientists from all over the globe gathered and presented their research findings on the effect of IP6 and other rice bran components on several aspects of health. The brain storming sessions of nearly 35 presentations demonstrated that IP6 is a chemopreventive agent as both a cancer inhibitor and a cancer suppressor in mammary gland, colon and lung cancer (Shamsuddin et al, 1997). 

Keenan, T.W. and Franke, W.W. (1981). Legalisation of xanthine oxidase in mammary gland epithelium and capillary endothelium. Cell 25, 67-82. 

Oxytocin is required for lactation. Milk is initially secreted into small sacs (alveoli) within the mammary gland. These alveoli are surrounded by smooth muscle, which contract to eject the milk. The oxytocin receptor is the key receptor that mediates this ejection of the milk. 

The posterior pituitary is innervated by direct nervous stimulation from the hypothalamus, resulting in the release of specific hormones. The hypothalamus synthesizes two hormones, oxytocin and vasopressin. These hormones are stored in and released from the posterior pituitary lobe. Oxytocin exerts two actions (1) it promotes uterine contractions during labor, and (2) it contracts the smooth muscles in the breast to stimulate the release of milk from the mammary gland during lactation. Vasopressin is an antidiuretic hormone (ADH) essential for proper fluid and electrolyte balance in the body. Specifically, vasopressin increases the permeability of the distal convoluted tubules and collecting ducts of the nephrons to water. This causes the kidney to excrete less water in the urine. Consequently, the urine becomes more concentrated as water is conserved. 

Wilson E, Butcher EC. CCL28 controls immunoglobulin (Ig)A plasma cell accumulation in the lactating mammary gland and IgA antibody transfer to the neonate. J Exp Med 2004 200 805-809. 

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