Autoradiographic study of protein synthesis in abdominal tissues of Glossina austeni

Protein synthesis at various times during the pregnancy cycle of G. austeni was determined by autoradiographic measurement of the incorporation of H³-leucine and H³-tyrosine into the cells of the fat body, oenocytes, milk gland and epidermis. The rate of utilization of these molecules is such that the labelled pool in the haemolymph is depleted before 0.5 hr after injection. The incorporation of both amino acids into fat body and oenocytes is high at eclosion and just after larviposition, with the incorporation of tyrosine by the oenocytes being much higher than that in the fat body. The same pattern of incorporation is observed in the epidermal cells. Label also appears in the endocuticle during the first 10 days of adult life. Except during the first 4 days following emergence, the incorporation of the two amino acids into the milk gland is very high, with periods of less intense protein synthesis at about the time of larviposition. The milk gland represents a highly efficient secretory system, with a t₅₀ of less than 30 min.     

Protein synthesis by the milk gland and fat body of the tsetse fly,Glossina pallidipes

The patterns of protein synthesis by the milk gland and the fat body of female Glossinapallidipes during the pregnancy cycle were studied by incubation with [³⁵S]methionine both in vivo and in vitro. The pattern of protein synthesis by the milk gland changed with the stage of the larva in the uterus. Very little synthesis occurred in the milk gland until the first instar larva hatched. Then four proteins (13, 16, 24 and 72 kDa) were prominently synthesized. As the larva matured, the synthesis of 19, 38, 40 and 72 kDa proteins increased, whereas that of the 13 and 24 kDa proteins decreased. Just before larviposition, only the 16 and 72 kDa proteins were still being synthesized. The milk gland secreted into the medium primarily the 13, 16, 19 and 72 kDa proteins, all of which were found in the larval gut after a 5 hr pulse of labeled methionine in vivo. During most of the pregnancy cycle protein synthesis in the fat body was low compared to that of the milk gland and only small amounts of several low molecular weight proteins (less than or equal to 16 kDa) were released into the medium. But when a large third instar larva was present in the uterus, the fat body synthesized and secreted a 72 kDa and a 15–17 kDa complex of proteins.     

The milk gland of the sheep ked, Melophagus ovinus: A comparison with Glossina

Structurally, the milk gland of the sheep ked, Melophagus ovinus, is quite similar to that of the tsetse fly, Glossina morsitans. In both insects the highly branched gland consists of two cell layers. An extracellular reservoir associated with each secretory cell initially receives the secreted milk. Milk then passes into the gland lumen through a dense cuticular rete. Gram-negative bacteria, presumably symbionts, are abundant in the lumen. Unlike tsetse, the secretory reservoir of the sheep ked is bi-lobed, and the secretory cell nucleus remains centrally located throughout the pregnancy cycle. Lipid droplets are much more abundant in the cytoplasm of the ked secretory cell, and analysis of larval milk shows 5–6% higher lipid content in the sheep ked. Results of histochemical analysis of ked milk are consistent with the analysis of tsetse milk. Four major milk proteins are detectable with polyacrylamide gel electrophoresis. Changes in abundance of ER and sizes of the secretory cell nucleus and secretory reservoir reflect a dramatic cycle of glandular activity during pregnancy. Unlike tsetse, the sheep ked remains constantly on its host and appears to take frequent, but small, blood meals. This strategy implies that the demand for nutrient storage is less than in tsetse.     

Analysis of milk gland structure and function in Glossina morsitans: milk protein production, symbiont populations and fecundity

A key process in the tsetse reproductive cycle is the transfer of essential nutrients and bacterial symbionts from mother to intrauterine offspring. The tissue mediating this transfer is the milk gland. This work focuses upon the localization and function of two milk proteins (milk gland protein (GmmMGP) and transferrin (GmmTsf)) and the tsetse endosymbionts (Sodalis and Wigglesworthia), in the context of milk gland physiology. Fluorescent in situ hybridization (FISH) and immunohistochemical analysis confirm that the milk gland secretory cells synthesize and secrete milk gland protein and transferrin. Knockdown of gmmmgp by double stranded RNA (dsRNA) mediated RNA interference results in reduction of tsetse fecundity, demonstrating its functional importance in larval nutrition and development. Bacterial species-specific in situ hybridizations of milk gland sections reveal large numbers of Sodalis and Wigglesworthia within the lumen of the milk gland. Sodalis is also localized within the cytoplasm of the secretory cells. Within the lumen, Wigglesworthia localize close to the channels leading to the milk storage reservoir of the milk gland secretory cells. We discuss the significance of the milk gland in larval nutrition and in transmission of symbiotic bacteria to developing offspring.     

Structural studies on the major milk gland protein of the tsetse fly, Glossina morsitans morsitans.

1. The major protein in the milk gland secretions of the tsetse fly, Glossina morsitans morsitans, was isolated by a combination of gel permeation chromatography and crystallization. 2. It has a native Mr approximately 47,000 and is composed of two identical polypeptide chains (Mr approximately 21,000) as determined by chemical cross-linking studies. The protein has no covalently-bound carbohydrates or lipids. Amino acid analysis of the protein revealed relatively high amounts of the aromatic amino acids, tyrosine (9.1 mol.%) and phenylalanine (8.5 mol.%). Immunoblotting experiments using antiserum against the protein revealed no cross-reactivity with any other milk proteins. 3. Quantitation of the protein during the pregnancy cycle showed that synthesis of the protein by the milk glands of adult female flies starts as the larva moults into second instar and rapidly declines as it matures into third instar. 4. It is proposed that the major milk gland protein could provide essential amino acids needed for the puparium formation.     

Storage and mobilisation of nutriment for uterine milk synthesis by Glossina morsitans

Nitrogen content of eggs and larvae of Glossina morsitans was a constant proportion of dry weight and equivalent to ca. 55% protein assuming tsetse proteins contain 16% nitrogen. The larval gut content (uterine milk) contained 40% protein. Fatty acid composition of lipids in the milk and in the larval body was similar, with Palmitic (35–38%), Palmitoleic (31–35%) and Oleic acid (23–25%) predominating. Results support the hypothesis that uterine milk contains both protein and lipid and that its composition is relatively constant throughout the period of its synthesis and secretion.Patterns of incorporation of radioactivity by fertilized adult females from injected [¹⁴C]-leucine changed throughout a pregnancy cycle. High levels of incorporation into lipid (22–30%) during early pregnancy fell to around 10% during late pregnancy. Over the same period low levels of incorporation into protein (5%) increased to 15%. Results support the hypothesis that uterine milk is synthesized from a lipid store laid down in early pregnancy coupled with protein derived largely from blood meals ingested later. Such a system would not require the insect to store proteins for larval growth and is economical in terms of energy expenditure.     

The effects of colchicine and vincristine on the concentrations of glucose and related metabolites in goat's milk

The effects of colchicine and vincristine on the concentration of glucose and its metabolites in milk were studied following intramammary injection of the alkaloids into one mammary gland of lactating goats. Both alkaloids decreased the rate of milk secretion from the treated gland and produced similar changes in the concentrations of various metabolites in milk. The concentrations of glucose, UDP-galactose, galactose, pyruvate and lactate increased, while those of glucose 6-phosphate and phosphoenolpyruvate decreased in milk from treated glands. The rate of milk secretion from the untreated gland increased, along with the concentrations of glucose in the milk, The changes in the concentrations of the metabolites in milk are discussed in relation to possible biochemical occuring in the mammary gland during the suppression of milk secretion by the alkaloids. It is suggested that, before alkaloid treatment, the rate of milk secretion was limited by intracellular glucose supply.     

Isolation, primary culture and morphological characterization of oenocytes from Aedes aegypti pupae

Oenocytes are ectodermic cells that participate in a number of critical physiological roles such as detoxification and lipid storage and metabolism in insects. In light of the lack of information on oenocytes from Aedes aegypti and the potential role of these cells in the biology of this major yellow fever and dengue vector, we developed a protocol to purify and maintain Ae. aegypti pupa oenocytes in primary culture. Ae. aegypti oenocytes were cultured as clustered and as isolated ovoid cells with a smooth surface. Our results demonstrate that these cells remain viable in cell culture for at least two months. We also investigated their morphology in vivo and in vitro using light, confocal, scanning and transmission electron microscopes. This work is the first successful attempt in isolating and maintaining Ae. aegypti oenocytes in culture, and a significant step towards understanding the role of this cell type in this important disease vector. The purification and the development of primary cultures of insect oenocytes will allow future studies of their metabolism in producing and secreting compounds.     

Milk-protein mRNAs and poly(A) in the involuting rat mammary gland return to the levels found during late pregnancy

Analyses of the rat mammary gland show that the increase in the milk-protein mRNAs during the development of lactation and the rapid disappearance of these sequences during involution are not accompanied by similar changes in the poly(A) content. During the development of lactation the casein mRNA is initially in great excess to the whey-protein mRNA and this differential expression of the genes for the two types of milk proteins is again observed during early involution. Since the amounts of poly(A) and of both milk-protein mRNAs are also similar to the amounts found in the gland during late pregnancy, these results indicate that during early involution the mammary gland has reverted to the pattern of mRNA metabolism that occurs during late pregnancy.     

Androstenedione and testosterone concentrations in plasma and milk of the cow throughout pregnancy

Androstenedione concentrations in both plasma and milk were higher than those of testosterone throughout pregnancy. Testosterone concentration increased during pregnancy; the levels in milk were always lower than in plasma. Androstenedione concentrations increased in plasma and milk during pregnancy but the values were twice as high in milk as in plasma after Day 90. This change in androstenedione distribution suggests that the mammary gland could be active in the uptake of androstenedione from plasma to milk or that the mammary gland itself might synthesize this hormone.     

Localization and expression of BCAT during pregnancy and lactation in the rat mammary gland

During lactation, branched-chain aminotransferase (BCAT) gene expression increases in the mammary gland. To determine the cell type and whether this induction is present only during lactation, female rats were randomly assigned to one of three experimental groups: pregnancy, lactation, or postweaning. Mammary gland BCAT activity during the first days of pregnancy was similar to that of virgin rats, increasing significantly from day 16 to the last day of pregnancy. Maximal BCAT activity occurred on day 12 of lactation. During postweaning, BCAT activity decreased rapidly to values close to those observed in virgin rats. Analyses by Western and Northern blot revealed that changes in enzyme activity were accompanied by parallel changes in the amount of enzyme and its mRNA. Immunohistochemical studies of the mammary gland showed a progressive increase in mitochondrial BCAT (mBCAT)-specific staining of the epithelial acinar cells during lactation, reaching high levels by day 12. Immunoreactivity decreased rapidly after weaning. There was a significant correlation between total BCAT activity and milk production. These results indicate that the pattern of mBCAT gene expression follows lactogenesis stages I and II and is restricted to the milk-producing epithelial acinar cells. Furthermore, BCAT activity is associated with milk production in the mammary gland during lactation.     

Quantitative morphological changes of the uterine gland cells in relation to physiological events during a pregnancy cycle in Glossina morsitans morsitans

Secretory cells of the uterine gland were investigated morphometrically during the second pregnancy cycle in Glossina morsitans morsitans. In early pregnancy when an egg was present in the uterus, morphometric parameters of the nucleus, the cytoplasm and its organelles were markedly low coincident with low physiological activity in the gland cells. This is the period when a proportion of the assimilated amino acids from the digested blood meals are converted to triglyceride in the fat body and stored. During the second half of pregnancy, when a larva was present in the uterus, there was a striking increase of the cytoplasmic and organelle volumes as well as of the surface areas of rough and smooth endoplasmic reticulum. There was also a marked augmentation of triglyceride-like inclusions, and later of secretory vesicles which released their content into enlarging extracellular reservoirs. This indicated a markedly high activity in the gland cells concomittant with the period of rapid synthesis of large amounts of proteins and lipoproteins destined for the growing intra-uterine larva. Mitochondrial parameters also increased, probably to generate adequate energy for synthesis, transport and secretion of nutriments for the larva. After larviposition, a marked reduction of cellular parameters was measured, and the volume density of lysosome-like structures had increased, indicating that larviposition is followed by degradation of large amounts of cellular organelles involved in biosynthetic processes. Morphometrical investigation of the uterine gland cells demonstrated a temporal correlation of the cellular dynamics with physiological events involved in producing a fully developed third-instar larva at the end of a pregnancy cycle.     

Changes in Harderian gland activity in the female golden hamster during the oestrous cycle, pregnancy and lactation.

The Harderian gland, which is situated within the bony orbit, is usually thought of as a source of lubrication for the eye. However, recent studies have suggested links with reproductive function. In the male golden hamster, both gland histology and activity are known to be under hormonal influence, and the present experiment was undertaken to examine gland weight and activity (as measured by the production of porphyrins) over the oestrous cycle and during pregnancy and early lactation in the female hamster. Gland weight, the number of solid intraluminal porphyrin accretions, and concentrations of copro- and proto-porphyrin were all maximal on day 1 of the cycle (oestrous) and at their lowest on day 2 (or jointly on days 2 and 3), rising gradually thereafter. Porphyrin concentrations are considerably higher during pregnancy and early lactation than during the cycle, and the solid porphyrin accretions, although diminished in number, are larger. Although there is no indication of either the function or the physiological basis of these changes during the cycle or pregnancy, these findings do suggest that in the female golden hamster, as in the male, there is a link between Harderian gland activity and reproductive function.     

Change in levels of cyclic AMP and cyclic GMP during pregnancy and larval development of the tsetse fly, Glossina morsitans

Cyclic AMP and cyclic GMP levels change very little in response to feeding and mating, but during pregnancy and at parturition major changes can be detected in both the mother and larva. In both the female head and larva (whole body) cyclic AMP levels reach a peak at parturition. In the larval brain and ring gland cyclic AMP is at its lowest at parturition but rises sharply, reaching a peak 1.5 hr later at the time of pupariation . Though cyclic AMP levels in the head and thorax are consistently 10-60 times greater than levels of cyclic GMP, both the female abdomen and larva contain high concentrations of cyclic GMP with a ratio of cyclic AMP:cyclic GMP approaching 1:1. In the abdomen, the pattern of high cyclic GMP closely parallels the activity cycle of the female's milk gland.     

乳腺重构的过程及其调节因素

受到妊娠周期的影响，乳腺组织在雌性哺乳动物一生中经历着妊娠-哺乳-退化的周期性发育变化. 在乳腺退化到再次泌乳的过程中，乳腺细胞经历凋亡和更新，从而实现乳腺组织的自我更新和修复，即乳腺重构. 重构期间乳腺在组织结构和生理过程中发生显著变化，但该过程物种间差异较大. 乳用家畜为维持泌乳，妊娠期和干奶期重叠，展示出独特的再生性乳腺重构. 再生性乳腺重构对乳畜乳腺健康和下一周期的泌乳具有重要意义，研究此过程将为后续调控乳腺自我更新和改善乳腺健康提供思路. 本综述总结了近年来动物乳腺重构的研究进展，系统归纳了影响乳腺重构的因素，包括激素、蛋白酶、细胞因子、热应激、氧化应激、光照周期等，旨在解析乳腺重构的生理机制，为精准调控该过程提供科学依据.     

A lipoprotein-containing particle is transferred from the serum across the mammary epithelium into the milk of lactating mice

To investigate the role of low-density lipoprotein (LDL) in the delivery of cholesterol to the mammary gland during pregnancy and lactation, we examined the distribution of radioactivity from (125)I-tyramine cellobiose-LDL injected into the tail vein of female mice at various stages of the reproductive cycle. Changes in the proportion of isotope taken up by the mammary gland largely reflected the increased weight of the gland in pregnancy and lactation. In addition, during lactation, radioactivity was found in the milk and was associated with a protein of the molecular weight of apoB-100. Quantitatively similar results were obtained with mice homozygous for disruption of the LDL receptor gene (LDLR null). Analysis of endogenous lipoproteins showed that the milk lipoprotein particles were denser than the corresponding serum lipoproteins and largely depleted of triglyceride and cholesterol. Using fluorescence microscopy we visualize the sorting of apoB protein from the LDL lipid phase at the basal surface of the mammary epithelial cell of both wild-type and LDLR-null mice. Our findings provide evidence that the mammary epithelium of the lactating mouse is able to take up LDL from the plasma by a non-LDLR-mediated process. An apoB-containing particle from which the cholesterol has been removed is transferred into milk.