Redistribution of tissue zinc pools during lactation and dyshomeostasis during marginal zinc deficiency in mice

Zinc (Zn) requirements are increased during lactation. Increased demand is partially met through increased Zn absorption from the diet. It is estimated that 60–80% of women of reproductive age are at risk for Zn deficiency due to low intake of bioavailable Zn and increased demands during pregnancy and lactation. How Zn is redistributed within the body to meet the demands of lactation, and how Zn deficiency affects this process, is not understood. Female C57bl/6J mice were fed a control (ZA; 30 mg Zn/kg) or a marginally Zn deficient (ZD; 15 mg Zn/kg) diet for 30 days prior to mating through mid-lactation and compared with nulliparous mice fed the same diets. While stomach and plasma Zn concentration increased during lactation in mice fed ZA, mice fed ZD had lower stomach Zn concentration and abrogated plasma Zn levels during lactation. Additionally, femur Zn decreased during lactation in mice fed ZA, while mice fed ZD did not experience this decrease. Furthermore, red blood cell, pancreas, muscle and mammary gland Zn concentration increased, and liver and adrenal gland Zn decreased during lactation, independent of diet, while kidney Zn concentration increased only in mice fed ZD. Finally, maternal Zn deficiency significantly increased the liver Zn concentration in offspring but decreased weight gain and survival. This study provides novel insight into how Zn is redistributed to meet the increased metabolic demands of lactation and how marginal Zn deficiency interferes with these homeostatic adjustments.     

The CB1 Receptor Antagonist SR141716A Reverses Adult Male Mice Overweight and Metabolic Alterations Induced by Early Stress

Perinatal stress may cause metabolic and hormonal disruptions during adulthood. The aim of this study was to evaluate the effects of early postnatal nociceptive stimulation (NS) on body weight and other metabolic parameters during adulthood and to determine whether CB₁ endocannabinoid receptors (CB₁Rs) may be involved in these effects. Male mice were subjected to NS during lactation with a daily subcutaneous injection of saline solution. Subsequently, both control and NS‐mice were treated from day 40 to 130, with an oral dose (1 µg/g body weight) of SR141716A, a specific CB₁R antagonist/inverse agonist. Mice body weight and food intake was periodically evaluated. Adult animals were then killed to evaluate epididymal fat pads and metabolic parameters. NS did not influence food intake in adult animals, but caused significant increases in body weight, epididymal fat pads, and circulating levels of leptin, corticosterone, and triglycerides (TGs). Chronic treatment with SR141716A normalized these parameters, with the exception of corticosterone levels. This treatment also reduced plasma levels of glucose, insulin, and total cholesterol in both adult control and NS‐mice. In addition, fatty acid (FA) amide hydrolase (FAAH) activity (the enzyme able to hydrolyze endocannabinoids) from liver and epididymal fat of adult NS‐mice was decreased by 40–50% in comparison to activities found in same tissues of control mice. Results suggest that overactive liver and epididymal fat CB₁R due to early NS may be involved in late metabolic alterations, which are sensitive to chronic treatment with SR141716A.     

Response of nonsensitized and sensitized lactating mice to infection with Trichinella spiralis

The effect of lactation on the expulsion of adult Trichinella spiralis were studied in: (1) lactating, (2) induced agalactic post-parturient, (3) previously sensitized, and (4) mice sensitized during lactation. The results indicated that lactation was associated with an altered pattern of worm expulsion; i.e. more adult worms were recovered from nonsensitized and sensitized lactating mice than from control mice. Furthermore, neither mice sensitized before nor during lactation demonstrated an immunity to challenge infection.     

不同来源乳铁蛋白对幼鼠肠道发育的影响

目的 探究哺乳期乳铁蛋白（lactoferrin，LF）的缺失及不同来源LF补充后对幼鼠肠道发育的影响。方法 以LF基因敲除型雌鼠作为哺乳母鼠造成幼鼠哺乳期无LF的摄入，且从幼鼠出生第3~21天每日人工饲喂100 mg/kg 牛血清白蛋白（BSA）、牛源乳铁蛋白（bovine Lactoferrin，bLF）及重组人源乳铁蛋白（recombinant human Lactoferrin，rhLF），于幼鼠21日龄取样，测定各组小鼠小肠发育指标。结果 在本实验周期下，哺乳期rhLF的补充显著性增加小鼠回肠绒毛长度/隐窝深度值（P<0.05），且上调回肠Occludin和ZO-1基因的表达（P<0.05），增加小鼠十二指肠、空肠和回肠麦芽糖酶酶活/乳糖酶酶活比值（P<0.05），表明哺乳期rhLF的补充能够增强小鼠肠道消化吸收能力和肠屏障功能；哺乳期bLF的补充显著增加小鼠十二指肠及回肠麦芽糖酶活性/乳糖酶活性比值（P<0.05）。结论 对于哺乳期无LF摄入的乳鼠来说，哺乳期间LF的补充能够增强乳鼠肠道对营养物质的消化吸收能力、促进肠道的发育成熟、增强肠道屏障功能，并且，本实验中rhLF表现出比bLF更加有效的作用。     

Intracerebroventricular leptin administration reduces food intake in pregnant and lactating mice

Leptin acts within the hypothalamus to diminish food intake. During pregnancy and lactation, both circulating leptin concentrations and food intake are elevated, suggesting an ineffectiveness of leptin to reduce food intake in these mice. Thus, this study tested the ability of intracerebroventricular (ICV) leptin administration to alter food intake during pregnancy and lactation. Mice during the first, second, and third trimesters of pregnancy, lactating mice on postpartum Day 7, and age-matched female mice were used. Plasma leptin concentrations averaged 2.9 +/- 0.3 ng/ml in control mice, increased steadily as pregnancy progressed (3.4 +/- 0.7, 29.8 +/- 4.5, and 40.5 +/- 0.7 ng/ml during the first, second, and third trimesters, respectively), and remained elevated on Day 7 postpartum (26.4 +/- 7.8 ng/ml). Mice were food deprived for 4 h, injected ICV with vehicle or leptin (1 micro g), and food intake was subsequently measured hourly for 3 hr, and after 24 hr. Vehicle-treated pregnant mice consumed marginally more food than cycling control mice, whereas nursing dams ate two to three times as much food as controls. As expected, ICV leptin administration reduced 24-hr food intake of control mice by 2 g, or approximately 50%. ICV-administered leptin was as effective in reducing food intake of pregnant and lactating mice as observed in control mice. Thus, the elevated circulating leptin concentrations observed in pregnant and nursing mice did not alter the ability of ICV-administered leptin to diminish food intake. High plasma concentrations of leptin-binding proteins observed during pregnancy, and probably during lactation, may limit the amount of endogenous leptin reaching the hypothalamus, and may consequently enable increases in food intake concomitant with elevated plasma leptin during these nutritionally demanding periods.     

Protein metabolism in the mouse during pregnancy and lactation.

Protein synthesis was measured in vivo in the whole body and in a number of individual tissues in mice at various stages of pregnancy and lactation. The absolute rate of protein synthesis in the whole body increased from 640 mg/day in virgin mice to 1590 mg/day by day 18 of pregnancy, and to 2100 mg/day by day 15 of lactation. Large proportions of these increments were contributed by the rapidly growing foetuses and placentae in the pregnant animals and by protein synthesis in the mammary glands during lactation. In addition, a substantial stimulation of growth and protein synthesis was also observed in the liver and the gastrointestinal tract. Gastrocnemius muscle showed no changes in protein metabolism, indicating that in the well-fed mouse this tissue is not required to play a role as a protein reserve during pregnancy and lactation.     

Pituitary prolactin and growth hormone levels during different reproductive states in mice with a high or a low lactational performance

The pituitary prolactin and growth hormone (GH) levels were determined by disc electrophoresis on 10% polyacrylamide gel during the virginal and pregnant stages and on Day 12 of lactation, using C3H/He and C57BL/6 mice. The former had been shown to be superior to the latter in both mammary development and lactational performance. The pituitary prolactin levels were significantly higher in C3H/He mice than in C57BL/6 mice during the virginal and pregnant stages. However, no strain differences existed in the prolactin levels on Day 12 of lactation. Little difference in the prolactin levels was found between estrus and diestrus, and the levels declined gradually with the advance of pregnancy in both strains. The levels decreased after 1 hr of suckling preceded by 8-hr removal of young on Day 12 of lactation in both strains, but the difference between before and after suckling was statistically significant only in C3H/He mice. Both pituitary GH content and concentration were significantly higher in C3H/He mice than in C57BL/6 mice during the virginal stage and the content was also higher in C3H/He mice during the pregnant stage. However, there existed no strain difference in the levels on Day 12 of lactation. Little change in the pituitary GH levels was observed during the different reproductive states in both strains.     

卡麦角林处理哺乳期小鼠对子代存活和生长的影响

哺乳期是兽类繁殖成功的关键阶段之一,本实验以不同浓度卡麦角林油溶液对哺乳早期雌性小鼠连续灌胃3 d,检测雌性小鼠体重和幼鼠存活及体重变化,以此确定卡麦角林对哺乳雌性小鼠繁殖成功的影响。结果发现,卡麦角林对雌性小鼠在哺乳期的体重相对增长率无显著影响,但处理组幼鼠出现部分死亡,0 μg / kg、50 μg / kg、100 μg/ kg、200 μg/ kg、400 μg/ kg 组幼鼠死亡率分别为1.30% 、3.85% 、4. 08% 、7.38% 、21.19% ,幼鼠死亡数和剂量呈正相关,400 μg / kg 组幼鼠成活率显著下降到78 8% ,其他剂量组幼鼠成活率与对照组差异不显著;给药后7 d 存活幼鼠的生长发育显著被抑制,之后处理组幼鼠体重变化与对照组无显著差异。上述结果表明卡麦角林处理哺乳早期雌性小鼠可降低幼鼠成活率并抑制存活幼鼠的生长发育,进而有可能降低雌性小鼠及其子代的繁殖成功率。     

Anxiety-Related Behaviours Associated with microRNA-206-3p and BDNF Expression in Pregnant Female Mice Following Psychological Social Stress

Stress during pregnancy can induce various psychological disorders in women. However, the association linking psychological stress during pregnancy with abnormal behaviours in females remains largely unknown. We employed a novel psychological stress model by introducing pregnant mice to witness the defeat process of their mated partner (WDPMP) and examined the effects of WDPMP on depression-/anxiety-like behaviours and on the expression of brain-derived neurotrophic factor (BDNF) and miR-206-3p in the hippocampus, medial prefrontal cortex (mPFC) and amygdala. Compared to pregnant control (PC) mice, pregnant stressed (PS) mice showed decreased sucrose preference during the late period of gestation, and after lactation, they spent less time in the open arms of the elevated plus maze and in the light chamber of the light/dark box. After lactation, decreased BDNF expression in both the hippocampus and mPFC of PS mice was found to be associated with enhanced miR-206-3p levels; meanwhile, elevated BDNF associated with decreased miR-206-3p expression was evident in the amygdala of the same PS mice. DNA methylation level in the Bdnf promoter did not show difference between PC and PS mice in the hippocampus. Transfection of miR-206-3p resulted in decreased BDNF levels in vitro. These results suggest that WDPMP stress during gestation can induce long-term mood alterations in pregnant mice, which may correlate with changes in miR-206-3p and BDNF expression in the hippocampus, mPFC and amygdala.     

Effects of immunization against a DNA vaccine encoding somatostatin gene (pGM-CSF/SS) by attenuated Salmonella typhimurium on growth, reproduction and lactation in female mice

A novel somatostatin (SS) DNA vaccine (pGM-CSF/SS), delivered orally by attenuated Salmonella typhimurium (CSO22), was used to immunize female mice at 5, 7, and 11 wk of age; the objective was to investigate the humoral immune response and effects of this vaccine on growth, reproduction and lactation. The pGM-CSF/SS induced SS-specific antibodies, which peaked (3.69 ± 0.89; mean ± S.D) 4 wk after the first booster immunization. Compared with a saline-treated control group, body weight gain of a pGM-CSF/SS immunized group increased 30.3% (23.88 vs. 18.32 g, P < 0.05) during the growth period (from 2 wk after primary immunization to 4 wk after the first booster immunization). Immunized mice had higher plasma estradiol concentrations (84.10 ± 2.16 vs. 81.45 ± 2.12 pg/ml, P < 0.05) and a shorter estrous cycle (4.06 ± 0.75 vs. 5.33 ± 0.49 d, P < 0.05), but serum progesterone concentrations were not significantly affected. Since offspring produced by immunized mice gained weight faster (P < 0.05) in the first 2 wk of life (4.27 ± 0.62 and 7.81 ± 1.30 g in Weeks 1 and 2, respectively vs. 3.70 ± 0.23 and 7.14 ± 0.48 g), we inferred that pGM-CSF/SS could have a direct or indirect role in regulating lactation in mice. In conclusion, GM-CSF and CSO22 served as adjuvant and attenuated live vector, respectively, with efficient oral delivery of an SS DNA vaccine which successfully induced a humoral immune response and enhanced rate of weight gain. Furthermore, the DNA vaccine pGM-CSF/SS affected plasma estradiol concentrations and the estrous cycle, and seemed to enhance lactation performance of female mice.     

小型啮齿动物的繁殖能量代价

繁殖是动物向后代传递和保持遗传信息的方式。因此繁殖的意义是显而易见的,但也需要付出代价。主要代价是能量需求增加。在对小家鼠繁殖能量需求的研究中发现,能量摄入在妊娠期只是稍微增加,而在哺乳期则急剧增加。尽管在妊娠期增加的幅度很小,但这可能反映了消化道和发育的胎儿之间在动物腹中的空间竞争,从而可能使能量摄入受到限制进而影响到繁殖过程。哺乳期间,能量摄入急剧增加,在哺乳后期达到高峰并趋于稳定。对野生鼠的研究也表明,野生鼠妊娠期和哺乳期的能量摄入模式与小家鼠是基本相同的,这样我们在小家鼠研究工作中的发现就具有更普遍的适应意义。对哺乳后期能量摄入的限制机制研究至少已经进行了15 年。能量摄入受消化道消化能力的限制(中心限制假说)或者受乳腺泌乳能力限制(外周限制假说) 的假说,都不能合理地解释一些现有的结果。我们提出了一个新的假说,即能量摄入可能受啮齿动物散热能力的限制(热耗散限制假说)。很久以来,一直认为散热能力是对大型哺乳动物哺乳的一个限制因素,但它在小型啮齿动物中的意义尚不清楚。传统观点认为,啮齿动物哺乳期对褐色脂肪组织产热水平的调节是为了重新分配能量以满足哺乳所需;但现在看来,实际上可能是动物为了避免体温过高而降低其基本的产热水平。我们在这个领域已经有了一些进展,但要利用这些知识来理解即使很简单的生活史权衡等问题也还有很多的工作需要做。     

Ectopic expression of β-lactoglobulin/human serum albumin fusion genes in transgenic mice: hormonal regulation andin situ localization

We produced transgenic mice carrying the native sheep -lactoglobulin (BLG) or fusion genes composed of the BLG promoter and human serum albumin (HSA) minigenes. BLG was expressed exclusively in the mammary glands of the virgin and lactating transgenic mice evaluated. In contrast, transgenic females carrying the BLG/HSA fusion constructs also expressed the HSA RNA ectopically in skeletal muscle, kidney, brain, spleen, salivary gland and skin. Ectopic expression of HSA RNA was detected only in strains that express the transgene in the mammary gland. There was no obvious correlation between the level of the HSA RNA expressed in the mammary gland and that found ectopically. In three transgenic strains analysed, the expression of HSA RNA in kidney and skeletal muscle increased during pregnancy and lactation, whereas in the brain HSA expression decreased during lactation in one of the strains. HSA protein was synthesized in skeletal muscle and skin of strain #23 and its level was higher in lactating mice compared with virgin mice. Expression of HSA was also analysed in males and was found to be more stringently controlled than in females of the same strains.In situ hybridization analyses localized the expressed transgene in the skin, kidney, brain and salivary glands of various transgenic strains. Distinct strain-specific and cell-type specific HSA expression patterns were observed in the skin. This is in contrast to the exclusive expression of the HSA transgene in epithelial cells surrounding the alveoli of the mammary gland. Taken together, these results suggest that the absence of sufficient mammary-specific regulatory elements in the BLG promoter sequences and/or the juxtaposition of the BLG promoter with the HSA coding sequences leads to novel tissue- and cell-specific expression in ectopic tissues of transgenic mice.     

Overexpression of des(1-3) insulin-like growth factor 1 in the mammary glands of transgenic mice delays the loss of milk production with prolonged lactation

During prolonged lactation, the mammary gland gradually loses the capacity to produce milk. In agricultural species, this decline can be slowed by administration of exogenous growth hormone (GH), which is believed to act through insulin-like growth factor 1 (IGF1). Our previous work demonstrated delayed natural mammary gland involution in des(1-3)IGF1-overexpressing transgenic mice (Tg[Wap-des{1-3}IGF1]8266 Jmr), hereafter referred to as WAP-DES mice. The present study tested the hypothesis that overexpressed des(1-3)IGF1 would delay the loss of milk production during prolonged lactation. Accordingly, we examined lactational performance in WAP-DES mice by artificially prolonging lactation with continual litter cross-fostering. Over time, lactational capacity and mammary development declined in both WAP-DES and control mice. However, the rate of decline was 40% slower in WAP-DES mice. Mammary cell apoptosis increased by 3-fold in both groups during prolonged lactation but was not different between genotypes. Plasma concentrations of murine IGF1 were decreased in WAP-DES mice, while those of the transgenic human IGF1 were elevated during prolonged lactation. Phosphorylation of the mammary IGF1 receptor was increased in the WAP-DES mice, but only during prolonged lactation. Plasma prolactin decreased with prolonged lactation in nontransgenic mice but remained high in WAP-DES mice. The WAP-DES mice maintained a higher body mass and a greater lean body mass during prolonged lactation. These data support the conclusion that overexpressed des(1-3)IGF1 enhanced milk synthesis and mammary development during prolonged lactation through localized and direct activation of the mammary gland IGF1 receptor and through systemic effects on prolactin secretion and possibly nutrient balance.     

High-protein diet during gestation and lactation affects mammary gland mRNA abundance, milk composition and pre-weaning litter growth in mice

We evaluated the effect of a high-protein diet (HP) on pregnancy, lactational and rearing success in mice. At the time of mating, females were randomly assigned to isoenergetic diets with HP (40% w/w) or control protein levels (C; 20%). After parturition, half of the dams were fed the other diet throughout lactation resulting in four dietary groups: CC (C diet during gestation and lactation), CHP (C diet during gestation and HP diet during lactation), HPC (HP diet during gestation and C diet during lactation) and HPHP (HP diet during gestation and lactation). Maternal and offspring body mass was monitored. Measurements of maternal mammary gland (MG), kidney and abdominal fat pad masses, MG histology and MG mRNA abundance, as well as milk composition were taken at selected time points. HP diet decreased abdominal fat and increased kidney mass of lactating dams. Litter mass at birth was lower in HP than in C dams (14.8 v. 16.8 g). Dams fed an HP diet during lactation showed 5% less food intake (10.4 v. 10.9 g/day) and lower body and MG mass. On day 14 of lactation, the proportion of MG parenchyma was lower in dams fed an HP diet during gestation as compared to dams fed a C diet (64.8% v. 75.8%). Abundance of MG α-lactalbumin, β-casein, whey acidic protein, xanthine oxidoreductase mRNA at mid-lactation was decreased in all groups receiving an HP diet either during gestation and/or lactation. Milk lactose content was lower in dams fed an HP diet during lactation compared to dams fed a C diet (1.6% v. 2.0%). On days 14, 18 and 21 of lactation total litter mass was lower in litters of dams fed an HP diet during lactation, and the pups' relative kidney mass was greater than in litters suckled by dams receiving a C diet. These findings indicate that excess protein intake in reproducing mice has adverse effects on offspring early in their postnatal growth as a consequence of impaired lactational function.     

Effects of mother's dietary exposure to acesulfame-K in Pregnancy or lactation on the adult offspring's sweet preference

This study investigates whether mother's exposure to the artificial sweetener acesulfame-K (AK) during pregnancy or lactation affected her adult offspring's sweet preference. It was found that mother's dietary exposure to AK in pregnancy or lactation decreased the preference thresholds for AK and sucrose solutions in the adult offspring, whereas the preference pattern and the most preferred concentration for AK or sucrose solution were unchanged. Furthermore, the preference scores in the exposure groups were increased significantly when compared with the control group at a range of concentrations for AK or sucrose solution. The existence of AK and its dynamic changes within 24 h in amniotic fluid during pregnancy or in mother's milk during lactation after a single oral infusion of AK solution were revealed by the methods of reversed-phase high-performance liquid chromatography and mass spectrometry. Our data suggest that AK can be ingested by the prenatal or postnatal mice through their mother's amniotic fluid or breast milk, producing a long-dated function on the adult's sweet preference.     

Effect of chronic suppression of growth hormone secretion, by SMS 201-995 on lactation in mice

The effect of chronic suppression of growth hormone (GH) secretion by SMS 201-995 on lactation was studied in primiparous C3H/He mice. Mammary gland DNA content on day 12 of lactation was significantly lower in SMS 201-995 treated mice than in the control. There were little differences between groups in mammary gland RNA content and litter growth on day 12 of lactation. That was associated with a slightly higher RNA/DNA ratio and a significant increase in food intake during lactation. These results indicate that inhibited mammary gland growth by GH suppression has little effect on lactation. The smaller mammary gland can compensate by increasing its secretory activity.     

Increased Milk Yield in Transgenic Mice Expressing Insulin-like Growth Factor 1

Abstract

Insulin-like growth factor 1 (IGF-1) mediates many of the actions of growth hormone. Overexpression of IGF-1 was reported to have endocrine and paracrine/autocrine effects on somatic growth in transgenic mice. To study the paracrine/autocrine effects of IGF-1 in mammary gland, transgenic mice were produced by pronuclear microinjection of a construct containing a bovine α-lactalbumin (α-LA) promoter linked to an ovine IGF-1 cNDA. This α-LA promoter has previously been shown to direct expression of a human factor VIII gene specifically to the mammary gland of transgenic mice. Three transgenic mouse lines were established as a result of microinjection of 398 embryos. Transgene expression was found in mammary gland at day 1 of lactation from these three lines. Progeny test were carried out by mating two transgenic males/one transgenic female to two nontransgenic females/one nontransgenic male. Mice from one line (line 1225) were all nonexpressors and the other (line 1372) failed to produce offspring. Milk yield was analyzed in the line 1137 that produced 10 mice, of which three were transgenic females and three nontransgenic females. All of the three transgenic females showed integration of the transgene and expressed transgene IGF-1 mRNA in the mammary gland. Milk yields from days 5, 10, and 15 of lactation were significant greater in transgenic expressors than in their nontransgenic littermates. Specifically, there is 17.9% increase in total milk yield from these three days for transgenics compared with nontransgenics. These results demonstrate that local overexpression of IGF-1 in transgenic mice is capable to stimulating milk yield during the first lactation.     

Resistance to high-fat diet in the female progeny of obese mice fed a control diet during the periconceptual, gestation, and lactation periods

With the worldwide epidemic of metabolic syndrome (MetS), the proportion of women that are overweight/obese and overfed during pregnancy has increased. The resulting abnormal uterine environment may have deleterious effects on fetal metabolic programming and lead to MetS in adulthood. A balanced/restricted diet and/or physical exercise often improve metabolic abnormalities in individuals with obesity and type 2 diabetes mellitus (T2D). We investigated whether reducing fat intake during the periconceptual/gestation/lactation period in mothers with high-fat diet (HFD)-induced obesity could be used to modify fetal/neonatal MetS programming positively, thereby preventing MetS. First generation (F1) C57BL/6J female mice with HFD-induced obesity and T2D were crossed with F1 males on control diet (CD). These F1 females were switched to a CD during the periconceptual/gestation/lactation period. At weaning, both male and female second generation (F2) mice were fed a HFD. Weight, caloric intake, lipid parameters, glucose, and insulin sensitivity were assessed. Sensitivity/resistance to the HFD differed significantly between generations and sexes. A similar proportion of the F1 and F2 males (80%) developed hyperphagia, obesity, and T2D. In contrast, a significantly higher proportion of the F2 females (43%) than of the previous F1 generation (17%) were resistant (P<0.01). Despite having free access to the HFD, these female mice were no longer hyperphagic and remained lean, with normal insulin sensitivity and glycemia but mild hypercholesterolemia and glucose intolerance, thus displaying a "satiety phenotype." This suggests that an appropriate dietary fatty acid profile and intake during the periconceptual/gestation/lactation period helps the female offspring to cope with deleterious intrauterine conditions.     

Histological studies of influences of pregnancy and lactation on the adrenal cortex in mice

Summary Histological and histometric studies were made of the adrenal cortex of the mouse during pregnancy and lactation. In earlier pregnancy the cortex histologically shows almost no changes, except that the X zone disappears during this period of the first pregnancy. In later pregnancy and at parturition the fasciculata cells are less vacuolated in appearence and relatively large in size, and their nuclei are remarkably enlarged in volume. After parturition the histophysiological findings of the fasciculata cells are different between lactating and non-lactating mice. In lactating mice the fasciculata cells show a marked increase in vacuolation and a striking enlargement of the size. Their nuclei are also hypertrophie. In non-lactating mice, the fasciculata cells are almost the same both in vacuolation and in size as those of normal females, although their nuclei remain somewhat large in volume. These results are discussed particularly in relation to the thymic changes dealt with in a previous paper (Ito and Hoshino 1962): the histophysiological findings of the fasciculata would give an explanation for the thymic changes during pregnancy and lactation.