Reciprocity in the Developmental Regulation of Aquaporins 1, 3 and 5 during Pregnancy and Lactation in the Rat

Nazemi, Sasan; Rahbek, Mette; Parhamifar, Ladan; Moghimi, S. Moein; Babamoradi, Hamid; Mehrdana, Foojan; Klærke, Dan A.; Knight, Christopher H.

doi:10.1371/journal.pone.0106809

Cited by 12 publications

(11 citation statements)

References 29 publications

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“…Those authors found that AQP1 expression remained elevated from early to peak lactation, whereas we found that AQP1 expression in the MG decreased during this period. We also found that AQP3 expression remained elevated from day 2 to day 21 of lactation, whereas Nazemi et al [13] found that AQP3 expression decreased from early to peak lactation. Whether these differences reflect between-species or experimental divergence is unknown.…”

Section: Discussionsupporting

confidence: 46%

“…We also find that gene expression for AQP1 and 3, both of which are measures of vascular permeability [52], increases from late gestation to lactation. Nazemi et al [13] also recently reported that expression of AQP1 and 3 in the MG of rats increases between gestation and early lactation. Those authors found that AQP1 expression remained elevated from early to peak lactation, whereas we found that AQP1 expression in the MG decreased during this period.…”

Section: Discussionmentioning

confidence: 87%

“…As a result, increased abundance of hypoxia inducible factor-1α (HIF-1α) can upregulate VEGF-A expression [11,12]. Finally, sufficient vascular permeability within the MG is realized by the actions of developmentally-regulated [13], water-permeable aquaporins (AQP) that allow water to move from the microcirculation into milk [14]. Within the mammary glands, AQP1 localizes to the endothelium whereas AQP3 localizes to the epithelium to contribute to milk synthesis [15,16].…”

Section: Introductionmentioning

confidence: 99%

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Regulation and localization of vascular endothelial growth factor within the mammary glands during the transition from late gestation to lactation

VanKlompenberg

Manjarín

Donovan

et al. 2016

Domestic Animal Endocrinology

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The vascular network within the developing mammary gland (MG) grows in concert with the epithelium to prepare for lactation, although the mechanisms coordinating this vascular development are unresolved. Vascular endothelial growth factor A (VEGF-A) mediates angiogenesis and vascular permeability in the MG during pregnancy and lactation, where its expression is upregulated by prolactin. Given our previous finding that late-gestational hyperprolactinemia induced by domperidone (DOM) increased subsequent milk yield from gilts, we sought to establish changes in vascular development during late gestation and lactation in the MGs of these pigs and determine whether DOM altered MG angiogenesis and the factors regulating it. Gilts received either no treatment (n = 6) or DOM (n = 6) during late gestation, then had their MG biopsied from late gestation through lactation to assess microvessel density, VEGF-A distribution and messenger RNA expression, and aquaporin (AQP) gene expression. Microvessel density in the MG was unchanged during gestation then increased between days 2 and 21 of lactation (P < 0.05). The local expression of messenger RNA for VEGF-A120, VEGF-A147, VEGF-A164, VEGF-A164b, VEGF-A188, VEGF receptors-1 and -2, and AQP1 and AQP3 all generally increased during the transition from gestation to lactation (P < 0.05). Immunostaining localized VEGF-A to the apical cytoplasm of secretory epithelial cells, consistent with a far greater concentration of VEGF-A in colostrum and/or milk vs plasma (P < 0.0001). There was no effect of DOM on any of the variables analyzed. In summary, we found that vascular development in the MG increases during lactation in first-parity gilts and that VEGF-A is a part of the mammary secretome. Although late-gestational hyperprolactinemia increases milk yield, there was no evidence that it altered vascular development.

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Section: Discussionsupporting

confidence: 46%

Section: Discussionmentioning

confidence: 87%

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

Regulation and localization of vascular endothelial growth factor within the mammary glands during the transition from late gestation to lactation

VanKlompenberg

Manjarín

Donovan

et al. 2016

Domestic Animal Endocrinology

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“…We also found that, in contrast to AQP-1 and AQP-3, which were predominantly expressed in cytoplasm, the subcellular localization of AQP-5 was exclusively present in nuclei in virgin rats whereas during lactation it was detected in both cytoplasm and nuclei. Nazemi et al also found that the immunohistochemical staining signals of AQP-5 were in mammary epithelial cells and duct system in rats but the signals were mainly in cytoplasm [ 23 ]. Both our study and the report by Nazemi et al show that the staining intensity of AQP-5 was lower than that of AQP-3 in lactating mammary glands.…”

Section: Discussionmentioning

confidence: 99%

“…In this study, immunohistochemical staining and western blot demonstrated that protein levels of AQP-3 and AQP-5 were significantly increased in lactating rats compared with virgin rats. Nazemi et al investigated the expression of AQP-1, AQP-3, and AQP-5 during pregnancy and lactation in rats and found that, compared with pregnancy stage, the mRNA levels of AQP-1 and AQP-3 were significantly increased at lactation stage [ 23 ]. Similar to the results in this study, they demonstrated significantly higher protein levels of AQP-3 at lactation than at pregnancy [ 23 ].…”

Section: Discussionmentioning

confidence: 99%

An Herbal Galactagogue Mixture Increases Milk Production and Aquaporin Protein Expression in the Mammary Glands of Lactating Rats

Liu

Hua

Luo

et al. 2015

Evidence-Based Complementary and Alternative Medicine

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Background. Herbal galactagogues have been increasingly used to treat postpartum hypogalactia. The mechanism of action of herbal galactagogues remains unclear. The purpose of this study was to investigate the effect of an herbal galactagogue mixture on milk production and aquaporin (AQP) expression in lactating rats. Methods. Thirty female Sprague Dawley rats were randomized into virgin, lactating + H2O, and lactating + galactagogue groups (n = 10 per group). Lactating rats were administered the decoction of an herbal galactagogue mixture by oral gavage or the same amount of distilled water. Results. The herbal decoction significantly increased milk production in lactating rats (P < 0.05). Both immunohistochemical staining and western blot showed that protein levels of AQP-3 and AQP-5 were significantly increased during lactation compared with virgin stage and the herbal decoction further elevated their expression (P < 0.05). AQP-1 was predominantly expressed in the capillaries whereas AQP-3 and AQP-5 were mainly detected in the epithelial cells and ducts of the mammary glands. Conclusion. The expression of AQPs in the mammary glands of rats was developmentally regulated. Herbal galactagogues might have increased milk secretion by regulating the expression and function of AQPs in the mammary glands.

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Transporters in the Lactating Mammary Epithelium

Neville

Kamikawa

Webb

et al. 2020

Physiology in Health and Disease

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Reciprocity in the Developmental Regulation of Aquaporins 1, 3 and 5 during Pregnancy and Lactation in the Rat

Cited by 12 publications

References 29 publications

Regulation and localization of vascular endothelial growth factor within the mammary glands during the transition from late gestation to lactation

Regulation and localization of vascular endothelial growth factor within the mammary glands during the transition from late gestation to lactation

An Herbal Galactagogue Mixture Increases Milk Production and Aquaporin Protein Expression in the Mammary Glands of Lactating Rats

Transporters in the Lactating Mammary Epithelium

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