Cloning and expression of bovine imc-415 cDNA from mammary gland

Bovine imc-415 cDNA was cloned from mammary gland using RACE PCR; it coded for 245 amino acids. The deduced amino acid sequence of mouse and human showed about 94% identity. Expression of bovine imc-415 increased about 40% in involuted mammary tissues compared with lactating tissues.     

三七鲨烯合酶基因在三七根、茎、芦头中的转录表达与三萜皂苷合成

三萜皂苷是三七、人参等重要药用植物的主要有效成分．采用改进的异硫氰酸胍法提取到三七RNA,经RT-PCR克隆技术获得三七三萜合成通路关键酶之一鲨烯合酶(squalene synthase, SS) cDNA,长1 270 bp,读码框架编码415个氨基酸．比对分析表明,推衍的三七SS氨基酸序列与人参、积雪草、青蒿、拟南芥和水稻SS的一致性分别为98%、89%、81%、78%和71%．利用实时荧光定量RT-PCR技术对三七根、茎、芦头的SS转录表达研究发现,一年生三七根SS基因转录表达量最高,高于茎和芦头的表达;但总皂苷含量是:芦头>叶>根>茎．可能与SS之后其它三萜合成关键酶的活性差异或/和三萜合成后的定向输送及累积有关．     

Molecular cloning of the human transmembrane secretory component (poly-Ig receptor) and its mRNA expression in human tissues

A 2.5 kilobase (kb) cDNA clone containing 92% of the coding region for human transmembrane secretory component (SC) or poly-Ig receptor, was isolated from a mammary gland cDNA library. The cDNA clone encoded a protein of 693 amino acids which showed 99% homology with the primary amino acid sequence of human free SC as reported by Eiffert et al. (1), and 54% homology with the deduced amino acid sequence of rabbit transmembrane SC for which cDNA was cloned by Mostov et al. (2). Northern blot analysis showed mRNA expression in various human exocrine tissues in good agreement with our previous immunohistochemical studies of SC.     

Control of amino acid transport in the mammary gland of the pregnant mouse

The regulation of the uptake of the amino acid analog α-aminoisobutyric acid was studied in diced mammary glands from pregnant mice. Stimulation of uptake by insulin was not prevented by inhibitors of protein synthesis; protein synthesis inhibitors decreased uptake by 20%; this response occurred more promptly in insulintreated tissues. Elimination of extracellular amino acids led to a substantial increase in transport which was not abolished by inhibitors of protein synthesis. These results indicate that insulin does not increase amino acid transport in this system by altering synthesis and degradation of transport protein. They are consistent with a model in which the activity of the existing amino acid transport protein is subject to negative feedback regulation from the intracellular amino acid pool.     

Propionyl-CoA synthetase in mammary gland and liver of cows

Propionyl-CoA synthetase of liver and mammary gland from calf and midlactation cow was investigated. No activity of this enzyme was detected in calf mammary gland, but it was detected in calf liver. Propionyl-CoA synthetase was found in both, liver and mammary gland of the cow, although mammary gland activity was about 25% of that found in liver. The effects of pH and temperature on enzyme activity and stability were also investigated in crude extracts of liver and mammary gland tissues. The results suggest a different behaviour of the enzyme from both origins. Kinetic studies of the enzyme were also carried out, showing differences, depending on the organ, in the apparent substrate KM values.     

Sequence of a cDNA encoding mouse F1F0-ATP synthase g subunit.

A pregnant-induced clone was identified by differential screening from a cDNA library of mouse mammary gland. The clone was identified as a full-length cDNA encoding the F1F0-ATP synthase g subunit. Comparison of the deduced amino acid sequences of mouse ATP synthase g subunit with those of bovine species showed 86% identity. The high levels of ATP synthase g subunit mRNA were detected in heart and uterine tissues.     

Isolation and Sequence Characterization of Mammary Derived Growth Inhibitor Gene of Riverine Buffalo (Bubalus Bubalis)

In this study, attempts have been made to identify and characterize water buffalo (Bubalus bubalis) mammary derived growth inhibitor (MDGI) gene, isolated from a mammary gland cDNA library of lactating buffalo. The complete MDGI cDNA was of 698 nucleotides, consisting 61 nucleotides in 5′ UTR, coding region of 402 nucleotides, and 235 nucleotides representing the 3′ UTR. Comparison of nucleotide and deduced amino acid sequence data with that of MDGI//fatty acid binding protein (FABP) of other species shows three buffalo specific nucleotide changes while seven nucleotide changes were common to cattle and buffalo. Buffalo and cattle MDGI had 100% amino acid sequence similarity, which also shared three amino acid changes: 34 (Ala-Gly), 109 (Leu-Met), and 132 (Glu-Gln) as compared to other species. Comparison with FABPs reported from other cattle tissues revealed highest amino acid sequence similarity with FABP-heart (100%) and least with FABP-liver (20.5%). Phylogenetic analysis revealed cattle MDGI to be closest to buffalo, while mouse MDGI was distantly placed, whereas different tissue derived FABPs of cattle showed FABP-heart closest and FABP-epidermis most distantly placed from buffalo MDGI. This report also differs from the earlier findings that MDGI is intermediate of FABP-heart and adipose.     

Isolation and sequence characterization of mammary derived growth inhibitor gene of riverine buffalo (Bubalus bubalis)

In this study, attempts have been made to identify and characterize water buffalo (Bubalus bubalis) mammary derived growth inhibitor (MDGI) gene, isolated from a mammary gland cDNA library of lactating buffalo. The complete MDGI cDNA was of 698 nucleotides, consisting 61 nucleotides in 5' UTR, coding region of 402 nucleotides, and 235 nucleotides representing the 3' UTR. Comparison of nucleotide and deduced amino acid sequence data with that of MDGI/fatty acid binding protein (FABP) of other species shows three buffalo specific nucleotide changes while seven nucleotide changes were common to cattle and buffalo. Buffalo and cattle MDGI had 100% amino acid sequence similarity, which also shared three amino acid changes: 34 (Ala-Gly), 109 (Leu-Met), and 132 (Glu-Gln) as compared to other species. Comparison with FABPs reported from other cattle tissues revealed highest amino acid sequence similarity with FABP-heart (100%) and least with FABP-liver (20.5%). Phylogenetic analysis revealed cattle MDGI to be closest to buffalo, while mouse MDGI was distantly placed, whereas different tissue derived FABPs of cattle showed FABP-heart closest and FABP-epidermis most distantly placed from buffalo MDGI. This report also differs from the earlier findings that MDGI is intermediate of FABP-heart and adipose.     

A static model to analyze carbon and nitrogen partitioning in the mammary gland of lactating sows

Quantitative estimates of mammary nutrient inputs, outputs and metabolism in sows are scarce, despite being critical elements to identify parameters controlling milk synthesis central for the feeding of lactating sows. The objective of this study was to quantify the mammary gland input and output of nutrients as well as the intramammary partitioning of carbon and nitrogen with the purpose to identify mechanisms controlling mammary nutrient inputs, metabolism and milk production in lactating sows. A data set was assembled by integration of results from four studies. The data set included data on litter performance, mammary arterial-venous concentration differences (AV-difference) of energy metabolites and amino acids, and the contents of lactose, fat and amino acids in milk. Milk yield was estimated based on average litter size and litter gain, and mammary plasma flow (MPF) was estimated using the sum of phenylalanine and tyrosine as internal flow markers. The yield and composition of milk were used to estimate mammary nutrient output in milk, and MPF and AV-difference were used to estimate net mammary input of carbon and nitrogen and output of CO₂. Carbon and nitrogen used for the synthesis of lactose, fat and protein in milk and CO₂-yielding processes were represented in a static nutrient partitioning model. The origin of mammary CO₂ output was calculated using theoretical estimates of carbon released in processes supporting mammary synthesis of de novo fat, protein and lactose in milk, mammary tissue protein turnover and transport of glucose and amino acids. Results indicated that total input of carbon from glucose and lactate was partitioned into lactose (36%), fat (31%) and CO₂-yielding processes (34%). Theoretical CO₂ estimates indicated that de novo fat synthesis, milk protein synthesis and mammary tissue protein turnover were the main processes related to mammary CO₂ production. More than 90% of mammary gland amino acid input was used for milk protein. The quadratic relationship between AV-difference and mammary input of essential amino acids indicated that both changes in AV-difference and MPF contributed to the regulation of mammary input of essential amino acids. The impact of the arterial supply of amino acids on mammary input may be greater for the branched-chain amino acids, arginine and phenylalanine than for other essential amino acids. In conclusion, relationships between input and output parameters indicate that AV-difference and MPF regulate mammary nutrient input to match the supply and demand of nutrients for the mammary gland.     

Human parathyroid hormone as a secretory peptide in milk of transgenic mice

In a transgenic mouse model we have targeted the expression of recombinant human parathyroid hormone (hPTH) to the mammary gland yielding hPTH as a secretory, soluble peptide in milk. A 2.5 kb upstream regulatory sequence of the murine whey acidic protein (WAP) directed the expression of the hPTH cDNA in a fusion gene construct (WAPPTHSV2) containing the SV40 small t-antigen intron and polyadenylation site in the 3′ end. Established lines of transgenic mice secreted hPTH to milk in concentrations up to 415 ng/ml. Recombinant hPTH recovered from the milk was purified by HPLC and shown to be identical to hPTH standard as analyzed by SDS-PAGE followed by immunoblotting. Expression of the WAPPTHSV2 was limited to the mammary gland as analyzed by polymerase chain reaction (PCR) and Southern blot of reversed transcribed mRNA from different tissues. hPTH is an important bone anabolic hormone and may be a potentially important pharmaceutical for treatment of demineralization disorders such as osteoporosis. We present the transgenic animal as a possible production system for hPTH. © 1995 Wiley-Liss, Inc.     

Prolactin binding to dissociated cells from rat mammary tumors and mammary gland.

Prolactin binding activity was studied in suspensions of cells which had been enzymatically dissociated from R3230AC mammary tumors, 7,12-dimethylbenz(a)anthracene (DMBA)-induced mammary tumors and lactating rat mammary glands. Prolactin bound specifically with high affinity (apparent binding affinity = 4.0 X 10(9) M-1) to R3230AC tumor cells. Hormone binding at room temperature was proportional to cell number and increased with time of incubation up to 120-180 min. Prolactin binding to R3230AC tumor cells from diabetic animals was reduced by about 50%. Specific prolactin binding activity was also demonstrated in preparations of cells from DMBA-induced tumors and lactating mammary gland. The levels of hormone binding in both dissociated cells and subcellular particles prepared from these tissues varied as follows: DMBA-induced tumors > lactating mammary gland > R3230AC mammary adenocarcinoma.     

A study of l-leucine, l-phenylalanine and l-alanine transport in the perfused rat mammary gland: possible involvement of LAT1 and LAT2

The transport of l-leucine, l-phenylalanine and l-alanine by the perfused lactating rat mammary gland has been examined using a rapid, paired-tracer dilution technique. The clearances of all three amino acids by the mammary gland consisted of a rising phase followed by a rapid fall-off, respectively, reflecting influx and efflux of the radiotracers. The peak clearance of l-leucine was inhibited by BCH (65%) and d-leucine (58%) but not by l-proline. The inhibition of l-leucine clearance by BCH and d-leucine was not additive. l-leucine inhibited the peak clearance of radiolabelled l-leucine by 78%. BCH also inhibited the peak clearance of l-phenylalanine (66%) and l-alanine (33%) by the perfused mammary gland. Lactating rat mammary tissue was found to express both LAT1 and LAT2 mRNA. The results suggest that system L is situated in the basolateral aspect of the lactating rat mammary epithelium and thus probably plays a central role in neutral amino acid uptake from blood. The finding that l-alanine uptake by the gland was inhibited by BCH suggests that LAT2 may make a significant contribution to neutral amino acid uptake by the mammary epithelium.     

Calcium-ion binding by the potential calcium-ion-binding protein, p9Ka

p9Ka is a polypeptide of apparent molecular mass 9 kDa, present in cultured rat mammary myoepithelial-like cells, but virtually absent in their parental epithelial cells. mRNA for p9Ka is present in normal rodent tissues. The amino acid sequence of a protein of molecular mass 12 KDa, derived from the nucleotide sequence of the p9Ka gene, is related to that of S-100 protein, a calcium-ion-binding protein. p9Ka, isolated from cultured rat mammary myoepithelial-like cells is now shown to bind calcium ions in vitro suggesting that the derived amino acid sequence is correct, and that an apparent discrepancy between the molecular masses of the predicted and isolated p9Ka does not affect this activity.     

Phospholipase A2 activity in 9,10-dimethyl-1,2-benzanthracene-induced mammary tumors of rats

The activities of phospholipase A2 were compared in mammary glands from virgin and mid-pregnant rats and in 9,10-dimethyl-1,2-benzanthracene-induced rat mammary tumors. Enzyme activities were not different in the 150 000 x g pellet fractions of mammary gland homogenates from virgin and mid-pregnant rats, but enzyme activity in the 150 000 x g supernatant fraction was about twice as high in the homogenates from the mid-pregnant rat glands. Phospholipase A2 activities in the 150 000 x g pellet and supernatant fractions of homogenerates of growing tumor tissues were more than an order of magnitude higher than in the normal tissues. The elevated activity of phospholipase A2 in the tumor tissues may be related to their rapid rate of proliferation.     

牦牛DBI基因的分子特征及其在乳腺组织中的表达与定位

地西泮结合抑制因子(Diazepam binding inhibitor,DBI)与酰基辅酶A具有高亲和力,在动物组织中广泛存在,与脂肪酸代谢、类固醇激素合成密切相关。为研究DBI基因的分子特征及该基因在乳腺发育中的作用,对牦牛DBI基因编码区进行克隆,进行生物信息学分析;采用实时荧光定量PCR (Quantitative real-time PCR,qPCR)、蛋白免疫印迹技术(Western blotting,WB)和免疫组织化学(Immunohistochemistry,IHC)方法对牦牛泌乳前期、泌乳期和干乳期的乳腺组织中DBI的相对表达量和表达部位进行研究。DBI序列分析显示：牦牛DBI基因编码区序列长264 bp,编码87个氨基酸残基,与牛的同源性高达99.62％;qPCR数据表明：牦牛泌乳前期乳腺组织中DBI基因的相对表达量显著高于泌乳期和干乳期(P< 0.05);WB结果显示：牦牛泌乳前期乳腺组织中DBI蛋白的表达量最高,干乳期次之,泌乳期最低(P< 0.05);IHC结果表明：不同发育时期的牦牛乳腺组织中DBI的表达部位并无明显差异,主要表达于乳腺腺泡上皮细胞、导管上皮细胞及小叶间质细胞。DBI在不同发育时期牦牛乳腺组织中的相对表达量具有明显差异(P< 0.05),揭示DBI可能参与牦牛乳腺发育的过程,这为进一步探究DBI基因在生物体中的作用提供相应的理论参考。