Gene expression and hormonal regulation of adiponectin and its receptors in bovine mammary gland and mammary epithelial cells

Although the functions of adiponectin, a differentiated adipocyte‐derived hormone, in regulating glucose and fatty acid metabolism are regulated by two subtypes of adiponectin receptors (AdipoRs; AdipoR1 and AdipoR2), those in ruminants remain unclear. Therefore we examined the messenger RNA (mRNA) expression levels of adiponectin and its receptors in various bovine tissues and mammary glands among different lactation stages, and the effects of lactogenic hormones (insulin, dexamethasone and prolactin) and growth hormone (GH) on mRNA expression of the AdipoRs in cultured bovine mammary epithelial cells (BMEC). AdipoRs mRNAs were widely expressed in various bovine tissues, but adiponectin mRNA expression was significantly higher in adipose tissue than in other tissues. In the mammary gland, although adiponectin mRNA expression was significantly decreased at lactation, AdipoR1 mRNA expression was significantly higher at peak lactation than at the dry‐off stage. In BMEC, lactogenic hormones and GH upregulated AdipoR2 mRNA expression but did not change that of AdipoR1. In conclusion, adiponectin and its receptor mRNA were expressed in various bovine tissues and the adiponectin mRNA level was decreased during lactation. These results suggest that adiponectin and its receptors ware changed in mammary glands by lactation and that AdipoRs mRNA expression was regulated by different pathways in BMEC.     

Effects of steroid hormone treatment on mammary development in prepubertal heifers

The objective of this study was to determine the effects of steroid hormone implantation in heifer calves on the ability of mammary tissue to develop subsequently in organ culture. Twenty-four calves were paired by date of birth and assigned to groups (eight calves/group). At 4, 7, or 10 mo of age, calves were implanted subcutaneously (s.c.) with pellets containing cholesterol or cholesterol, 17β-estradiol, and progesterone for 9 or 18 d. The calves were euthanized and uteri and mammary glands were removed and weighed. Slices of mammary parenchymal tissue were incubated for 5 d at 37°C in a 50% O₂, 5% CO₂ humidified atmosphere in Waymouth’s 752/liter medium supplemented with insulin (5.0 μg/ml) or lactogenic hormone complex insulin (5.0 μg/ml), aldosterone (0.1 μg/ml), hydrocortisone (0.1 μg/ml), and prolactin (1.0 μg/ml) in the presence or absence of epidermal growth factor (EGF) (0.06 μg/ml) to promote lobulo-alveolar development. Tissue sections were stained and mounted on slides for morphologic and histologic analysis or prepared to evaluate expression of β-casein mRNA. There were no morphologic differences in slices from calf mammary tissues despite age, steroid hormone priming, or hormones used in tissue culture. The 4-mo-old calves required steroid priming followed by incubation of the tissue slices with the lactogenic complex with or without epidermal growth factor to induce cytological changes associated with lactogenesis but did not express β-casein mRNA. At 7 mo of age, steroid hormone priming was not necessary for induction of alveolar formation and secretion. Incubation of the tissue slices from 7-mo-old calves with the lactogenic complex was sufficient to induce alveolar formation and secretion. However, β-casein mRNA was not expressed. At 10 mo of age, exposure of tissue from calves to the lactogenic hormones caused histologic changes reminiscent of the ability to secrete milk regardless of hormone priming. However, estrogen and progesterone priming was necessary before incubation of the tissue slices with the lactogenic hormones to induce β-casein mRNA expression. When epidermal growth factor was added to the lactogenic hormone complex, β-casein mRNA expression decreased. These data support the concept that there is a sequential development of responsiveness of the mammary gland to various hormones. By 10 mo of age, prepubertal heifers reach a stage of maturity where steroid hormone priming followed by incubation of tissue slices with the lactogenic hormones is sufficient to induce both structural and functional differentiation.     

Effects of tripeptides and lactogenic hormones on oligopeptide transporter 2 in bovine mammary gland

This study was conducted to investigate the expression of oligopeptide transporter 2 (PepT2) and its potential function in bovine mammary gland. First, the PepT2 mRNA and protein were determined in cultured mammary epithelial cells. Then the effects of lactogenic hormones (prolactin, hydrocortisone or insulin) and substrate (threonyl-phenylalanyl-phenylalanine) on PepT2 were investigated. The PepT2 mRNA and protein were successfully detected in bovine mammary epithelial cells. PepT2 gene expression was enhanced by the addition of 50, 500 and 5000 ng/ml prolactin, 10 and 100 ng/ml hydrocortisone, and 50, 500, 5000 and 50,000 ng/ml insulin. PepT2 mRNA abundance was increased when 5, 10 and 15% of threonyl-phenylalanyl-phenylalanine was included. Responses of PepT2 to lactogenic hormones and oligopeptide inferred that it may play an important role in bovine mammary gland.     

Changes in gene expression of glucose transporters in lactating and nonlactating cows

Glucose delivery and uptake by the mammary gland are a rate-limiting step in milk synthesis. It is thought that insulin-independent glucose uptake decreases in tissues, except for the mammary gland, and insulin resistance in the whole body increases following the onset of lactation. To study glucose metabolism in peak-, late-, and nonlactating cows, the expression of erythrocyte-type glucose transporter (GLUT1) and the insulin-responsive glucose transporter (GLUT4) in the mammary gland, adipose tissue, and muscle were assessed by Western blotting and real-time PCR. Our results demonstrated that the mammary gland of lactating cows expressed a large amount of GLUT1, whereas the mammary gland of nonlactating cows did not (P < 0.05). On the other hand, adipose tissue of late and nonlactating cows expressed a large amount of GLUT1, whereas the adipose tissue of peak-lactating cows did not (P < 0.05). There were no significant differences in the abundance of GLUT4 mRNA in adipose tissue and muscle, whereas GLUT4 mRNA was not detected in the mammary gland. The plasma insulin concentration was greater (P < 0.05) in nonlactating cows than in peak- and late-lactating cows. The results of the present study indicate that in lactation, GLUT1 expression in the mammary gland and adipose tissue is a major factor for insulin-independent glucose metabolism, and the expression of GLUT4 in muscle and adipose tissue is not an important factor in insulin resistance in lactation; however, the plasma insulin concentration may play a role in insulin-dependent glucose metabolism. Factors other than GLUT4 may be involved in insulin resistance.     

A proteomic analysis of the effect of growth hormone on mammary alveolar cell-T (MAC-T) cells in the presence of lactogenic hormones

The bovine mammary alveolar cell-T (MAC-T) cell line is able to uniformly differentiate and secrete casein proteins in response to dexamethasone, insulin, and prolactin and is extensively used to study bovine mammary epithelial cell (MEC) function. Somatotropin, or growth hormone (GH), has been shown to increase milk protein synthesis both in vivo and in mammary cell models and to induce cytoskeletal rearrangement in a 3T3 fibroblast cell line and a Chinese hamster ovary cell line. To identify the nature of the effects of GH in MECs cultured with lactogenic hormones, changes in global protein expression were assessed in the MAC-T cell line with the use of two-dimensional gel electrophoresis and matrix-assisted laser desorption ionization tandem time of flight mass spectrometry. Forty proteins were differentially expressed in response to GH (P < 0.05) and were related to metabolism, the cytoskeleton, protein folding, RNA and DNA processing, and oxidant stress. These widespread changes in protein expression are indicative of a global role of GH in overall cellular differentiation that may underlie the direct modulation of milk component synthesis in MEC models that have been described to date.     

王不留行增乳活性单体对奶牛乳腺上皮细胞增殖及泌乳性能的影响

应用CASY细胞分析仪及HPLC分别检测王不留行邻苯二甲酸二丁酯对乳腺上皮细胞增殖、细胞活力及乳腺上皮细胞分泌β-酪蛋白、乳糖的影响,研究王不留行增乳活性单体邻苯二甲酸二丁酯对奶牛泌乳中期乳腺上皮细胞增殖和泌乳性能的影响。试验结果表明,王不留行增乳活性单体成份邻苯二甲酸二丁酯对奶牛乳腺上皮细胞的增殖和细胞活力提高均显著(P0.05);能显著提高乳腺上皮细胞β-酪蛋白的表达(P0.05),也能提高乳糖的分泌(P0.05,P0.05)。因此,王不留行增乳活性单体邻苯二甲酸二丁酯可显著提高乳腺上皮细胞的增殖和泌乳能力。     

牦牛乳腺上皮细胞的体外分离培养及鉴定

为提高牦牛乳腺上皮细胞体外培养成功率,实现高度可重复性,试验采用2.5 g/L(含0.5 g/L EDTA)胰酶和Ⅰ型胶原酶(1 mg/mL)分段消化牦牛乳腺组织块以分离细胞,原代培养时于DMEM/F12培养体系内添加氢化可的松(1 μg/mL)、表皮生长因子(50 ng/mL)及胰岛素-转铁蛋白-硒(5 μg/mL)...     

Effect of suckling intensity on human growth hormone binding, biochemical composition and histological characteristics of ovine mammary glands

Suckling both, or only one contralateral mammary gland during 15 days postpartum was utilized to study lactogenic hormone binding to mammary microsomal membranes and quantitative mammary morphology in ewes. Binding of radiolabeled human growth hormone was specific for lactogenic hormones. Non-radiolabeled human growth hormone, ovine and bovine prolactin and human placental lactogen effectively competed with radiolabeled human growth hormone for binding sites but ovine and bovine growth hormone were completely ineffective. Specific binding of radiolabeled human growth hormone to 600 μg of membrane protein averaged 23 ± 3% in all lactating glands. Neither days postpartum nor treatment of contralateral mammary glands substantially altered hormone binding in lactating glands. Specific human growth hormone binding (6 ± 0.5%) in non-suckled glands (15 days postpartum both udder halves) was significantly lower (P<0.01) than in lactating tissue but only a moderate and variable reduction in specific binding was measured in membranes from glands non-suckled for 15 days but contralateral to a suckled gland (14 ± 4%). Specific binding was approximately doubled in assays with 600 compared with 300 μg of membrane protein and the pattern of binding among variously suckled glands was not changed by treatment of membranes with 4 M MgCl₂ prior to assay. Most secretory cells from all lactating glands had rounded, basally displaced nuclei, apical fat globules, secretory vesicles and abundant densely stained basal cytoplasm (ergastoplasm). Alveolar lumenal area was maximal (50% of tissue area) and stromal tissue area was minimal. After 15 days of non-suckling (both udder halves) mammary cells were engorged with lipid, ergastoplasm was reduced and nuclei were irregularly shaped and randomly displaced compared with lactating tissue. In addition, lumenal area was reduced and stromal tissue more evident. Lack of suckling for 5 days had little apparent effect on mammary cytology. Like lactogenic hormone binding, mammary tissue morphology was only moderately altered by 15 days of non-suckling when the remaining gland was suckled. RNA concentration was lowest (2.1 ± 0.3 mg/g) in mammary tissue from ewes in which neither gland was suckled for 15 days postpartum but non-suckling interval had no significant effect when contralateral glands were suckled. DNA concentration was not significantly influenced by suckling treatments. Relative lactogenic hormone binding closely corresponded to changes in cytological and biochemical indices of secretory cell function.     

Role of extracellular matrix and prolactin in functional differentiation of bovine BME-UV1 mammary epithelial cells

Interactions between extracellular matrix (ECM) and epithelial cells are necessary for proper organisation and function of the epithelium. In the present study we show that bovine mammary epithelial cell line BME-UV1 cultured on ECM components, commercially available as Matrigel, constitutes a good model for studying mechanisms controlling functional differentiation of the bovine mammary gland. In contact with Matrigel BME-UV1 cells induce apicobasal polarity, and within 16 days form three dimensional (3D) acinar structures with a centrally localized hollow lumen, which structurally resemble mammary alveoli present in the functionally active mammary gland. We have shown that the 3D culture system enables a high expression and proper localisation of integrin receptors and tight junction proteins in BME-UV1 cells to be induced. This effect was not obtained in cells grown in the classical 2D culture system on plastic. Moreover, ECM highly stimulated the synthesis of one of the major milk proteins, beta-casein, even in the absence of prolactin. Our results show that contact with ECM plays an important role in the lactogenic activity of bovine MECs, however, prolactin is necessary for the efficient secretion of milk proteins.     

Growth hormone and lactogenic hormones can reduce the leptin mRNA expression in bovine mammary epithelial cells

Leptin mRNA is expressed in not only adipocytes but also mammary epithelial cells and leptin protein is present in milk. Although milk leptin is thought to influence metabolism or the immune system in neonates, there is little information about the regulation of leptin expression in mammary epithelial cells. We examined the effect of growth hormone (GH) and/or lactogenic hormone complex (DIP; dexamethasone, insulin and prolactin) on leptin mRNA expression in mammary epithelial cells. We used a bovine mammary epithelial cell (BMEC) clonal line, which was established from a 26-day pregnant Holstein heifer. We confirmed that the mRNA was expressed in BMECs and the expression was significantly reduced by GH and/or DIP, when the cells were cultured on both plastic plates and cell culture inserts at days 2 and 7 after stimulation with lactogenic hormones. GH and/or DIP significantly increased level of alpha-casein mRNA in BMECs after 7 days on the cell culture inserts, but no mRNA expression was detected at day 2. GH and DIP significantly stimulated the secretion of alpha-casein from BMEC on cell culture inserts at 3.5 and 7 days. However, neither alpha-casein mRNA expression nor secretion was observed in the BMECs cultured on plastic dishes, even in the presence of GH or/and DIP. These results indicate that GH and DIP can directly reduce leptin mRNA expression in both undifferentiated and functionally differentiated bovine mammary epithelial cell.     

催乳激素对山羊脂肪酸合酶基因转录活性的影响

为探讨催乳激素对体外培养的山羊乳腺上皮细胞脂肪酸合酶（fatty acid synthase，FASN）基因转录活性的调控作用，试验分别用不同浓度的胰岛素（insulin，INS）、雌激素（estradiol，E₂）、催乳素（prolactin，PRL）及不同激素组合（INS+PRL、E₂+INS+PRL）处理山羊乳腺上皮细胞24 h，提取细胞总RNA，采用实时荧光定量PCR检测催乳激素对FASN基因mRNA表达水平的影响。细胞转染山羊FASN基因启动子报告基因载体，同样用不同浓度的胰岛素、雌激素、催乳素及激素组合处理24 h，利用双荧光素酶报告基因系统检测催乳激素对FASN基因启动子活性的影响。结果发现，用雌激素、催乳素处理山羊乳腺上皮细胞后，FASN基因启动子活性及mRNA水平极显著或显著上调（P<0.01；P<0.05），雌激素浓度为10、100 μmol/L和催乳素浓度为0.1和1 μg/mL时效果最为明显，而胰岛素对FASN基因的启动子活性及mRNA水平没有显著影响（P>0.05）。用不同激素组合（INS+PRL、E₂+INS+PRL）处理细胞均能显著上调FASN基因启动子活性及mRNA表达水平（P<0.05）。结果表明，雌激素和催乳素能够调控FASN基因的转录活性，为进一步研究泌乳过程中FASN基因的分子调控机制提供理论依据。     

Studies of composition and major protein level in milk and colostrum of mares

The aim of the study was to determine the changes in composition and physicochemical features (pH, density, thermostability and acidity) of mare colostrum and milk, and of protein fraction contribution (serum albumin, β-casein, γ-casein, α-lactalbumin, G class immunoglobulins) depending on lactation stage. The research material was colostrum and milk samples from 12 Arabian mares. Colostrum samples were collected within 2 h after parturition and milk samples were collected twice, in the 3rd and 6th weeks of lactation. The level of basic milk components decreased significantly (only lactose content increased) as compared to colostrum. Total bacteria count and somatic cell count decreased significantly with an increase in resistance and urea level. The changes observed were connected to differentiated contribution of particular protein fractions and their relative proportions. Lower levels of γ-casein (P ≤ 0.05), β-casein, serum albumin as well as α-lactalbumin were observed in colostrum as compared to those in milk. Any relationship between lactation stage and β-casein content was observed. Serum albumin and α-lactalbumin content increased in subsequent milkings. The level of G class immunoglobulins decreased significantly and its highest level was noted in colostrum. Any significant differences between the 3rd and 6th lactation weeks were obtained.     

激素对奶牛乳腺上皮细胞乳脂肪合成的调控作用

乳脂肪是高质量的天然脂肪，其可为人类提供营养和能量，在各种膳食脂肪和油类中，是最容易被消化吸收的。乳脂肪是在乳腺中由从头合成或外源摄取的脂肪酸与甘油酯化形成的一种脂类物质，其含量的高低关系着牛奶品质的优劣和乳制品的加工特性。在奶牛的泌乳周期中，乳腺泌乳功能受多种因素影响，其中内分泌腺分泌的多种激素对奶牛乳腺上皮细胞（BMECs）乳脂的合成具有积极的调控作用。综上所述，作者介绍了氢化可的松、催乳素、胰岛素和生长激素4种泌乳相关激素对BMECs乳脂肪合成的调控机理，即从乳脂合成适宜的激素添加量、激素对乳脂球形态的影响方面初步阐释其调控作用，并从乳脂合成的关键酶及转录因子、激素对乳脂合成相关基因表达量方面深入阐释其作用机理，旨在为研究泌乳相关激素对奶牛乳腺内乳脂肪合成的调控机理提供参考。     

Feeding 5-hydroxy-l-tryptophan during the transition from pregnancy to lactation increases calcium mobilization from bone in rats

An increasing demand for calcium during pregnancy and lactation can result in both clinical and subclinical hypocalcemia during the early lactation period in several mammalian species, in particular the dairy cow. Serotonin (5-HT) was recently identified as a regulator of lactation and bone turnover. The purpose of this study was to determine whether supplementation of the maternal diet with a 5-HT precursor would increase maternal bone turnover and calcium mobilization to maintain appropriate circulating maternal concentrations of ionized calcium during lactation. Female Sprague-Dawley rats (n = 30) were fed either a control diet (n = 15) or a diet supplemented with the 5-HT precursor 5-hydroxytryptophan (5-HTP, 0.2%; n = 15) from day 13 of pregnancy through day 9 of lactation. Maternal serum and plasma (day 1 and day 9 of lactation), milk and pup weight (daily), mammary gland and bone tissue (day 9 of lactation) were collected for analysis. The 5-HTP diet elevated circulating maternal concentrations of 5-HT on day 1 and day 9 of lactation and parathyroid hormone related-protein (PTHrP) on day 9 of lactation (P < 0.033). In addition, 5-HTP supplementation increased total serum calcium concentrations on day 1 of lactation and total milk calcium concentration on day 9 of lactation (P < 0.032). Supplemental 5-HTP did not alter milk yield, maternal body weight, mammary gland structure, or pup litter weights (P > 0.05). Supplemental 5-HTP also resulted in increased concentrations of mammary 5-HT and PTHrP, as well as increased mRNA expression of rate-limiting enzyme in 5-HT synthesis, tryptophan hydroxylase 1, and Pthrp mRNA on day 9 of lactation (P < 0.028). In addition, supplementation of 5-HTP resulted in increased mRNA expression of maternal mammary calcium transporters and resorption of bone in the femur, indicated by increase osteoclast number and diameter as well as mRNA expression of classical markers of bone resorption on day 9 of lactation (P < 0.048). These results show that increasing 5-HT biosynthesis during the transition from pregnancy to lactation could be a potential therapeutic target to explore for prevention of subclinical and clinical hypocalcemia.     

Apoptosis and autophagy in involuting bovine mammary gland is accompanied by up-regulation of TGF-beta1 and suppression of somatotropic pathway

Regulation of mammary gland remodeling during the lactation cycle in cattle still remains unclear. The present study focused on the role of TGF-beta1 and somatotropic pathways proteins in control of the switch between survival and death of bovine mammary epithelial cells (MEC). Expressions of TGF-beta1, TGF-betaRII, IGF-IRalpha, IGF-IRbeta, GH-R, IGFBP-3, -4, and -5 in mammary tissue explants in Holstein-Fresian heifers (n = 7) and cows (n = 23) in early lactation (1-100 day), late lactation (200-260 day) and drying off (280-340 day) were compared with biochemical indices of apoptosis (caspase 3, 89 kDa fragment of PARP) and autophagy (Beclin1). The results revealed that an increase in apoptosis during the dry period was accompanied by highly significant increases in TGF-beta1 and TGF-betaRII expression. Beside biochemical markers, typical morphological features of apoptosis, such as cell shrinkage, separation from the neighboring cells and condensation of chromatin were observed. TGF-beta1 expression and induction of apoptosis was facilitated by the suppression of somatotropic pathway during drying off, manifested with down-regulation of GH-R and IGF-IRalpha, and up-regulation of IGFBP-4 and -5. This is the first report describing autophagy in the bovine mammary gland. Similarly to apoptosis, the intensity of autophagy was the highest in the dry period, as shown by increased expression of Beclin1 and morphological features, e.g. autophagosomes, autophagic vacuoles. Autophagy observed in the involuting mammary tissue could be the natural cell defense against transient undernourishment and action of apoptogenic peptides (e.g. TGF-beta1, IGFBPs), thus maintaining cellular homeostasis in the dry period.