An autophagic deficit in the uterine vessel microenvironment provokes hyperpermeability through deregulated VEGFA, NOS1, and CTNNB1

Adequate mammary development and coordinated actions of lactogenic hormones are essential for the initiation of lactation. Pregnancies compromised by uteroplacental insufficiency impair mammary development and lactation, further slowing postnatal growth. It is not known whether the initiation of lactation or galactopoesis is compromised. Uteroplacental insufficiency induced in rats by bilateral uterine vessel ligation (Restricted) or sham surgery (Control) on Day 18 of gestation preceded collection of mammary tissue on Day 20 of pregnancy. Mammary explants were cultured with combinations of insulin, cortisol and prolactin and analysed for α-lactalbumin and β-casein gene expression. Mammary tissue from late pregnant Restricted rats had elevated α-lactalbumin, but not β-casein, mRNA, which is consistent with premature lactogenesis resulting from an early decline in peripheral maternal progesterone. Explants from Restricted rats were more responsive to hormone stimulation after 3 days in culture, indicating that compromised galactopoesis, not lactogenesis, most likely leads to the reduced growth of suckled pups.

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Spontaneous Hemoperitoneum in Pregnancy from a Ruptured Superficial Uterine Vessel

Taiwanese Journal of Obstetrics and Gynecology ◽

10.1016/s1028-4559(08)60114-x ◽

2007 ◽

Vol 46 (1) ◽

pp. 77-80 ◽

Cited By ~ 12

Author(s):

Cheng-Yu Wu ◽

Jiann-Loung Hwang ◽

Yu-Hung Lin ◽

Bih-Chwen Hsieh ◽

Kok-Min Seow ◽

...

Keyword(s):

Uterine Vessel ◽

Spontaneous Hemoperitoneum ◽

In Pregnancy

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Treadmill Exercise before and during Pregnancy Improves Bone Deficits in Pregnant Growth Restricted Rats without the Exacerbated Effects of High Fat Diet

Nutrients ◽

10.3390/nu11061236 ◽

2019 ◽

Vol 11 (6) ◽

pp. 1236

Author(s):

Kristina Anevska ◽

Dayana Mahizir ◽

Jessica F. Briffa ◽

Andrew J. Jefferies ◽

John D. Wark ◽

...

Keyword(s):

Treadmill Exercise ◽

Quantitative Computed Tomography ◽

Peripheral Quantitative Computed Tomography ◽

High Fat ◽

Plasma Analysis ◽

Beneficial Effects ◽

Uterine Vessel ◽

Wistar Kyoto ◽

Fat Feeding ◽

Adult Bone

Growth restriction programs adult bone deficits and increases the risk of obesity, which may be exacerbated during pregnancy. We aimed to determine if high-fat feeding could exacerbate the bone deficits in pregnant growth restricted dams, and whether treadmill exercise would attenuate these deficits. Uteroplacental insufficiency was induced on embryonic day 18 (E18) in Wistar Kyoto (WKY) rats using bilateral uterine vessel ligation (restricted) or sham (control) surgery. The F1 females consumed a standard or high-fat (HFD) diet from 5 weeks, commenced treadmill exercise at 16 weeks, and they were mated at 20 weeks. Femora and plasma from the pregnant dams were collected at post-mortem (E20) for peripheral quantitative computed tomography (pQCT), mechanical testing, histomorphometry, and plasma analysis. Sedentary restricted females had bone deficits compared to the controls, irrespective of diet, where such deficits were prevented with exercise. Osteocalcin increased in the sedentary restricted females compared to the control females. In the sedentary HFD females, osteocalcin was reduced and CTX-1 was increased, with increased peak force and bending stress compared to the chow females. Exercise that was initiated before and continued during pregnancy prevented bone deficits in the dams born growth restricted, whereas a HFD consumption had minimal bone effects. These findings further highlight the beneficial effects of exercise for individuals at risk of bone deficits.

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Autophagy in the uterine vessel microenvironment: Balancing vasoactive factors

Clinical and Experimental Reproductive Medicine ◽

10.5653/cerm.2020.04126 ◽

2020 ◽

Vol 47 (4) ◽

pp. 263-268

Author(s):

Hyunjung Jade Lim

Keyword(s):

Mouse Models ◽

Cell Type ◽

Vasoactive Factors ◽

Uterine Vessel ◽

Research Findings ◽

Physiological Tasks ◽

Cyclic Changes ◽

Catabolic Process ◽

Complex Organ

Autophagy, which has the literal meaning of self-eating, is a cellular catabolic process executed by arrays of conserved proteins in eukaryotes. Autophagy is dynamically ongoing at a basal level, presumably in all cells, and often carries out distinct functions depending on the cell type. Therefore, although a set of common genes and proteins is involved in this process, the outcome of autophagic activation or deficit requires scrutiny regarding how it affects cells in a specific pathophysiological context. The uterus is a complex organ that carries out multiple tasks under the influence of cyclic changes of ovarian steroid hormones. Several major populations of cells are present in the uterus, and the interactions among them drive complex physiological tasks. Mouse models with autophagic deficits in the uterus are very limited, but provide an initial glimpse at how autophagy plays a distinct role in different uterine tissues. Herein, we review recent research findings on the role of autophagy in the uterine mesenchyme in mouse models.

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Puberty onset is delayed following uteroplacental insufficiency and occurs earlier with improved lactation and growth for pups born small

Reproduction Fertility and Development ◽

10.1071/rd15151 ◽

2017 ◽

Vol 29 (2) ◽

pp. 307 ◽

Cited By ~ 8

Author(s):

Tania Romano ◽

Deanne H. Hryciw ◽

Kerryn T. Westcott ◽

Mary E. Wlodek

Keyword(s):

Sex Steroids ◽

Postnatal Growth ◽

Growth Restriction ◽

Uterine Vessel ◽

Risk Of Disease ◽

Puberty Onset ◽

Accelerated Growth ◽

Wistar Kyoto ◽

Plasma Leptin ◽

And Control

Being born small programs adult diseases later in life, with the early postnatal growth rate in growth-restricted offspring playing a role in the reduction of the risk of disease in adulthood. In addition, early postnatal growth is critical for puberty onset (PO). Using cross-fostering, we determined the effects of growth restriction and prenatal and postnatal environments on PO and sex steroids. Bilateral uterine vessel ligation (Restricted) or sham surgery (Control), performed on Gestational Day 18 in Wistar-Kyoto rats induced fetal growth restriction. Control, Reduced (Control litter size reduced to five pups) and Restricted pups were cross-fostered onto different Control (normal lactation) or Restricted (impaired lactation) mothers on Day 1. The day of vaginal opening (females) and balanopreputial separation (males) characterised PO. Blood was sampled for sex steroid and leptin analysis. Restricted pups were born lighter than Controls (P < 0.05). PO was delayed by 3.4–4 days in Restricted-on-Restricted males and females (P < 0.05). Plasma leptin concentrations at PO were lower in both sexes in all groups compared with Restricted-on-Control and Control-on-Control (P < 0.05). PO occurred earlier in Restricted-on-Control (~2 days) with normal leptin concentrations and accelerated growth compared with Restricted-on-Restricted (P < 0.05). Testosterone concentrations were lower in male Restricted-on-Restricted than Control-on-Control at 6 months (P < 0.05). Restricted-on-Restricted females had lower progesterone at PO compared with Control-on-Control (P < 0.05). Female Restricted-on-Restricted had lower oestradiol, with Restricted-on-Control having higher testosterone concentrations at 6 months than Control-on-Control (P < 0.05). Growth restriction reduced postnatal growth and leptin concentrations, delaying PO in both sexes and programming altered sex steroids. This highlights the importance of the interaction between prenatal and postnatal growth in the programming of adult reproductive status.

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