Enhanced inhibition of estrogen receptor nuclear binding in the uterus of aged mice

We have studied why uteri from aging mice show a decrease nuclear concentration of estrogen receptors (UER). While 50-60% of available cytosolic UER from ovariectomized (OVX) mice aged 4-8 months, upon physiochemical activation, are able to bind either to DNA-cellulose or nuclear suspensions from young animals, only 20-30% of comparable concentrations of cytosolic UER from mice aged 15-18 months did so under identical experimental conditions. Nuclear dilutions with uterine cytosolic fractions from estrogen treated OVX mice prior to determination of [3H] UER binding sites in nuclear suspensions decreased the number of nuclear ER sites in both age groups. However, we observed that cytosols from aged animals showed a greater ability to prevent [3H]E2 binding to nuclear sites when compared to young ones (inhibition index: 0.286 +/- 0.013 (SE) vs. 0.137 +/- 0.025, P less than 0.05). These changes occur independently of protein concentration and result from dilution of a specific endogenous inhibitor of [3H]E2 binding to nuclear sites. The significance of these observed differences is discussed.     

Endocrine aging in C57 BL mice--II. Dynamics of estrogen receptors in the hypothalamic-pituitary axis

Specific cytosolic and nuclear binding sites for estrogens were measured in the hypothalamic-pituitary axis (HPA) of young (4-8 months) and old (16-18 months) C57 BL mice in order to determine any age-related alteration in hormone-receptor interaction. Our results indicated no age differences in the affinity (KD = 0.89 +/- 0.03 (SEM) vs 1.09 +/- 0.2 X 10(-9) M), the specificity, the sedimentation profile (6 s) or in the number (98.9 +/- 4.9 vs 84.4 +/- 2.3 fmol/mg protein) of unoccupied estrogen binding sites in the cytosols. Estradiol administration to young mice induced a complete translocation of cytosolic estrogen receptors to the nucleus, and two types of nuclear binding sites were observed: Type I were specific for estrogens with high affinity (KD = 0.51 +/- 0.06 X 10(-9) M) and low binding capacity (115.1 +/- 22.7 fmol/mg DNA) and sedimented in the 4.0 s area, while Type II binding sites showed a much higher capacity and lower affinity for R2858. HPA nuclear suspensions of aged untreated mice showed undetectable (less than 50 fmol/mg DNA) levels of nuclear estrogen receptors and E2 pre-treatment resulted in a significant increase in both types of binding sites. While no significant changes in the physicochemical characteristics of these nuclear receptors were observed, when compared to young animals, aging was manifested by a translocation defect in the HPA of C57 BL mice. These results suggest aging changes in the endocrine regulating centers of the brain with defective activation of estrogen receptors.     

Age-related alterations in estrogen receptor dynamics are independent of cycling status in middle-aged C57BL/6J mice

The objective of this study was to determine whether changes in estrogen receptor (ER) levels and dynamics that were previously observed in old acyclic mice were present in middle-aged mice and whether the cycling status of the mice influenced those changes. Young (3-6 months) regularly cycling and middle-aged (12-14 months) C57BL/6J mice that were either acyclic or still cycling regularly were injected with a dose of E2 (0.05 microgram/10 g body wt) sufficient to achieve maximal levels of nuclear ER (ERn) in all tissues examined: hypothalamus (HYPO), pituitary (PIT), and uterus (UT). The rise and fall of ERn and the replenishment of cytosolic ER (ERc) were measured 0, 1, 2, 4, 8, 12, and 24 h later. Cycling status did not affect ER binding profiles in middle-aged tissues. Therefore, data from cycling and acyclic subgroups were pooled for comparison with young mice. The increase in ERn following E2 injection, measured as the integrated area under the ERn profile, was reduced 33, 23, and 17%, respectively, in HYPO, PIT, and UT of middle-aged mice. In addition, the duration of elevated ERn was selectively reduced in middle-aged HYPO. ERc levels were reduced in middle-aged HYPO and UT, but replenishment rates were not altered. Reductions in total ER (ERn + ERc) were sufficient to account for the decline in ERn in middle-aged HYPO and UT, but factors in addition to ER loss appear to contribute to reduced ERn in middle-aged PIT. These results indicate that alterations in ER levels and dynamics occur prior to the transition to acyclicity, that these alterations are not secondary to hormonal or other changes associated with acyclicity, and that receptor loss appears to account for most of the age-related reduction in nuclear ER binding.     

Evidence for a pituitary site of gonadal steroid stimulation of GnRH receptors in female mice

Treatment of GnRH-deficient (hpg) female mice with oestradiol-17 beta (E2) for 7 days increased GnRH receptors from 4.1 +/- 0.4 fmol/pituitary (control) to 7.2 +/- 0.7 fmol/pituitary (GnRH-treated), and consistently increased pituitary FSH content. Treatment of hpg female mice with E2 plus progesterone (P) for 14 days stimulated GnRH receptors more than did E2 alone, although values still remained lower than those of normal intact female mice. In contrast, GnRH treatment of intact hpg female mice alone, or combined with E2 + P, increased GnRH receptors to values similar to those of intact normal female mice. In contrast, the receptor rise after GnRH treatment alone of ovariectomized hpg mice was significantly less than in intact hpg mice similarly treated. However, the combination of GnRH + E2 + P treatment of ovariectomized hpg mice increased GnRH receptors to normal intact female values, indicating the synergistic actions of these hormones on GnRH receptor up-regulation at the pituitary. Oestradiol treatment of ovariectomized normal female mice prevented the receptor fall after ovariectomy, and when combined with exogenous GnRH further increased receptors to values identical to those of intact female mice receiving GnRH alone. Ovariectomy of hpg mice had no effect on GnRH receptor, serum or pituitary LH and FSH values. There was no change in serum LH concentration after GnRH treatment of hpg female mice, but serum FSH increased and this was accentuated by ovariectomy, indicating that in intact mice an ovarian factor(s) normally inhibits GnRH-stimulated FSH release. This factor did not appear to be an ovarian steroid since serum FSH was not suppressed in intact or ovariectomized GnRH-treated hpg mice concurrently receiving E2 + P treatment. These results suggest that: (1) gonadal steroids alone have a major direct stimulatory action on the pituitary to increase GnRH receptors; (2) the oestrogen-induced increase in GnRH receptors is enhanced in the presence of GnRH; (3) steroids exert inhibitory feedback on gonadotrophin secretion that is mediated at some cellular regulatory locus other than the GnRH-receptor complex.     

Effect of neonatal castration on sex steroid receptor levels in the hypophysis of male rats

The content of estradiol and testosterone cytosolic and nuclear receptors has been studied in the pituitary body of adult male rats gonadectomized on day 1-3 after birth (long-term castrates) or in adulthood (short-term castrates). Intact male rats and long- and short-term castrates had the same level of cytosolic and nuclear estrogen receptors. The number of cytoplasmic and nuclear testosterone-binding sites was identical in the pituitary body of adult intact mice and long-term castrates. Contrastingly, the concentrations of androgen cytosolic and nuclear receptors were significantly lower in neonatally castrated males compared to intact adult animals. The results obtained indicate that nuclear testosterone receptors in the pituitary body mediate negative feedback effect of androgen on the release of luteinizing hormone and that the formation of thin mechanism occurs within the first days of life.     

Age-related changes of glucose-6-phosphate dehydrogenase activity in mouse oocytes

Summary Glucose-6-phosphate dehydrogenase (G6PDH) activity was measured in follicular oocytes and in ovulated eggs of prepubertal, adult and aged mice. G6PDH activity in ovulated eggs was 60% of the activity in follicular oocytes in all age groups. The mean G6PDH activity was significantly higher in follicular oocytes of adult mice than in oocytes of both prepubertal and aged mice. In aged mice, the decreased mean activity in follicular oocytes as well as in ovulated eggs was mainly due to a high percentage of cells with extremely low activity (25 and 18%, respectively). The percentage of preovulatory oocytes with low activity in prepubertal mice was 9% and in adult mice 0.3%. For ovulated eggs these percentages were 0% for both prepubertal and adult mice. In every age group, all ovulated eggs showed a normal morphology. When ovulated eggs with extremely low G6PDH activity can still be fertilized, it can be questioned whether this loss of activity could cause disturbances in development of (preimplantation) embryos. Our findings emphasize the potentialities of investigating intact single oocytes for changes in enzyme activities, which could be applied as parameters for quality control of these cells.     

Characterization of estrogen receptor in estrogen-dependent transplantable rat pituitary tumor MtT/F84

Properties of nuclear and cytosolic estrogen receptors (ERs) were examined in a new transplantable rat pituitary tumor designated as MtT/F84, of which growth is stimulated by estrogen. The optimal incubation conditions of both nuclear and cytosolic exchange were found to be at 37 degrees C for 15 min and at 25 degrees C for 2 hr, respectively. Molybdate increased a specific binding of estradiol (E2) as determined by [3H]E2-binding assay. Sucrose density gradient analyses of crude cytosol revealed specific peaks of radioactivity in both 4-5S and 8-10S areas. However, only a single 5S peak was present in 0.4M KCl-extractable nuclear ER. Molybdate also enhanced the stability of cytosolic 8-10S receptor in density gradient sedimentation behavior. Scatchard plot analysis for nuclear ER yielded a single class of binding sites with a dissociation constant (Kd) of 0.317 nM and the maximum number of binding sites (NBSmax) of 25.4 fmol/mg protein. Saturation analysis of [3H]estrogen binding to cytosolic ER also yielded a straight line with a Kd of 0.146 nM and NBSmax of 58.5 fmol/mg protein. The effect of E2 administration on the intracellular distribution of ER was also examined. A marked disappearance in the ER binding in cytosol with a concomitant increase in binding in nuclear fraction was found after the administration of the unlabeled E2 in vivo, whereas the total number of ER did not change. Thus, it is concluded that properties of ER in the MtT/F84 were very similar to those in other target organs such as uterus and pituitary gland.     

Relationship between occupied form of nuclear estrogen receptor and cytosolic progesterone receptor or DNA synthesis in uteri of estradiol implanted rats

The effect of 17 beta-estradiol (E2) implantation on the cytosolic progesterone receptor (RcP), DNA and occupied form of nuclear estrogen receptor (o- Rn) content in the uterus of ovariectomized adult rats, is described. Animals were implanted with oil or E2-oil solution in Silastic capsules. The latter group animals were divided into two subgroups: in subgroup (a), capsules remained in situ until decapitation time. In subgroup (b) they were removed 48 h after implantation. The E2 implantation caused a significant increase in uterine weight, RcP and o-Rn content 48 h later. However, the DNA content increased significantly only after 72 h, but there was no significant difference in the t-Rn concentration in relation to the non-estrogenized animals. In subgroup (a) animals, these values remained unchanged until 96 h. In subgroup (b), the removal of E2 implants 48 h later caused an almost complete return to the values before the E2 implantation in terms of uterine weight, RcP and o-Rn content. However the DNA concentration remained higher and the t-Rn level was lower than those values that were obtained for the non- estrogenized rats. These results suggest that the RcP and DNA synthesis induced by E2 would be connected to the level of o-Rn, although a closer dependency over time seems to exist between the o-Rn and RcP levels than between the o-Rn and DNA concentrations.     

Differential effects of aging on estrogen receptor dynamics in hypothalamus, pituitary and uterus of the C57BL/6J mouse

Estrogen receptor (ER) dynamics and content were measured in the hypothalamus (HYPO), pituitary (PIT) and uterus (UT) of aging mice because of their potential importance to age-related changes in sensitivity to estrogen. Young (3-6 months), and old (22-24 months) C57BL/6J mice were injected with a dose of E2 (0.05 micrograms/10 g body wt) sufficient to achieve maximal levels of nuclear ER (ERn) in all tissues, and the rise and fall of ERn and the depletion and replenishment of cytosolic ER (ERc) were measured 0, 1, 2, 4, 8, 12 and 24 h later. Integrated areas under the ERn profiles in old HYPO, PIT and UT were reduced 34, 28 and 19%, respectively. These reductions were due to (1) lower levels of ERn throughout the profiles, (2) delays in attainment of peak ERn in UT and PIT, and (3) accelerated loss of peak ERn in HYPO. ERc levels were also reduced in old mice, and replenishment of ERc was delayed in old HYPO and PIT, but not in UT. Reductions in total ER (ERn + ERc) were sufficient to account for all reductions and altered dynamics of ERn, except for the delayed attainment of peak ERn in UT. These results indicate that levels and dynamics of nuclear ER are altered during aging, and that most of these changes are secondary to alterations in ER content and turnover rather than a reduced ability of ER to bind to nuclear sites.     

Role of GnRH in the regulation of pituitary GnRH receptors in female mice

The fall in pituitary GnRH receptors in female mice after ovariectomy (Ovx) was further decreased (greater than 50%), rather than prevented, by treatment with a GnRH antiserum, despite suppression of the post-gonadectomy increase in serum gonadotrophins, suggesting that increased endogenous GnRH secretion is not the mediator of GnRH receptor fall after ovariectomy in mice. Furthermore, GnRH antiserum reduced GnRH receptors by 30-50% in intact normal females, without altering receptor affinity, and rendered serum LH and FSH undetectable but did not reduce receptors in GnRH-deficient, hpg mice. When GnRH was administered to ovariectomized mice this failed to restore receptor values (fmol/pituitary) (intact = 55.3 +/- 2.4; Ovx = 30.1 +/- 2; Ovx + GnRH = 31.6 +/- 2.8), but serum LH was reduced from high post-ovariectomy values (231 +/- 42 ng/ml) to values normal for intact females (24 +/- 2 ng/ml). In contrast, multiple GnRH injections to intact female mice increased GnRH receptor by 35%, while serum LH was reduced to just detectable levels. A marked dissociation between GnRH receptor and serum gonadotrophin concentrations was observed. Administration of oestrogen (E2) plus progesterone (P) to ovariectomized mice in which endogenous GnRH had been immunoneutralized reversed the inhibitory effect of GnRH antiserum on GnRH receptors and increased values above those of ovariectomized controls, although no increase in serum or pituitary gonadotrophin levels was seen in ovariectomized mice treated with E2 + P + GnRH antiserum. Treatment with E2 and P of intact females receiving GnRH antiserum did not prevent the inhibitory effect of antiserum on receptors, while E2 + P treatment alone of intact female mice reduced GnRH receptors by 30%. These data suggest that the gonadal steroids reduce GnRH receptors in intact female mice by inhibiting hypothalamic GnRH secretion, and that a certain degree of pituitary exposure to GnRH is required for maintenance of a normal receptor complement. These results suggest that (1) the fall in GnRH receptors after ovariectomy is primarily attributable to removal of gonadal factors. The fall is not a reflection of alteration in endogenous GnRH interaction with the gonadotroph; (2) homologous ligand 'up-regulation' of GnRH receptors in female mice depends upon the presence of the ovaries; (3) endogenous GnRH is also required for GnRH receptor maintenance in intact female mice; and (4) GnRH receptor and serum gonadotrophin responses to hormonal changes can be dissociated and their relationship is complex.     

Transient shortening of estrous cycles in aging C57BL/6J mice: effects of spontaneous pseudopregnancy, progesterone, L-dihydroxyphenylalanine, and hydergine

Regular estrous cycles can be reinitiated in old acyclic female rats by pharmacologic, hormonal, and environmental manipulations. The most responsive acyclic states are persistent vaginal cornification (PVC) and spontaneous pseudopregnancy (SP). However, it is not known if the irregular cyclicity that precedes acyclicity during aging can also be alleviated. We found that transient shortening of estrous cycles follows smear sequences indicative of pseudopregnancy in C57BL/6J mice, aged 9-15 mo, suggesting a role for progesterone. This phenomenon was investigated through a limited model of pseudopregnancy in which intact aging mice with lengthened cycles were given progesterone implants (yielding 70 ng progesterone/ml plasma) that suppressed estrous cycles; upon removal of the implants, cycles were transiently shortened in aging mice. Therefore, we hypothesize that withdrawal from the progesterone elevations associated with SP is the mechanism in shortening subsequent estrous cycles. Effects of central-acting drugs, similar to those used to reinitiate cyclicity in acyclic old rats, were also examined. Hydergine, an ergot mixture with partial dopaminergic and serotonergic agonist activities, suppressed SP when fed to 10- to 12-mo-old, middle-aged mice. Hydergine did not otherwise affect estrous cycle length, prevent PVC, or reinitiate cycling in acyclic PVC mice. Feeding L-dihydroxyphenylalanine to middle-aged mice did not suppress SP, affect estrous cycle lengths, or reinitiate cycles from PVC.     

The secretome atlas of two mouse models of progeria

Hutchinson-Gilford progeria syndrome (HGPS) is a rare genetic disease caused by nuclear envelope alterations that lead to accelerated aging and premature death. Several studies have linked health and longevity to cell-extrinsic mechanisms, highlighting the relevance of circulating factors in the aging process as well as in age-related diseases. We performed a global plasma proteomic analysis in two preclinical progeroid models (Lmna^G609G/G609G and Zmpste24^−/− mice) using aptamer-based proteomic technology. Pathways related to the extracellular matrix, growth factor response and calcium ion binding were among the most enriched in the proteomic signature of progeroid samples compared to controls. Despite the global downregulation trend found in the plasma proteome of progeroid mice, several proteins associated with cardiovascular disease, the main cause of death in HGPS, were upregulated. We also developed a chronological age predictor using plasma proteome data from a cohort of healthy mice (aged 1–30 months), that reported an age acceleration when applied to progeroid mice, indicating that these mice exhibit an “old” plasma proteomic signature. Furthermore, when compared to naturally-aged mice, a great proportion of differentially expressed circulating proteins in progeroid mice were specific to premature aging, highlighting secretome-associated differences between physiological and accelerated aging. This is the first large-scale profiling of the plasma proteome in progeroid mice, which provides an extensive list of candidate circulating plasma proteins as potential biomarkers and/or therapeutic targets for further exploration and hypothesis generation in the context of both physiological and premature aging.     

甜杨6-磷酸葡萄糖脱氢酶在抗冻性低温诱导中的作用

对-20℃低温锻炼及脱锻炼过程中甜杨(Populus suaveolens)幼苗的G6PDH、SOD和POD活性、MDA含量和半致死温度(LT50)进行了测定和分析.结果发现,低温锻炼在一定程度上提高了幼苗6-磷酸葡萄糖脱氢酶(G6PDH)、SOD和POD活性,降低了MDA含量和幼苗半致死温度(LT50).另外,将幼苗放回常温(脱锻炼)2 d能引起幼苗的G6PDH、SOD和POD活性的显著下降,并使LT50和MDA含量的迅速回升.结果表明,低温锻炼中G6PDH活性的增加有助于SOD和POD活性的提高,进而对幼苗的LT50和MDA含量的降低有明显的促进作用,G6PDH可能参与了SOD和POD活性的调节和抗冻性的低温诱导.     

Aging sensitizes toward ROS formation and lipid peroxidation in PS1M146L transgenic mice

Mutations in the presenilins (PS) account for the majority of familial Alzheimer disease (FAD) cases. To test the hypothesis that oxidative stress can underlie the deleterious effects of presenilin mutations, we analyzed lipid peroxidation products (4-hydroxynonenal (HNE) and malondialdehyde) and antioxidant defenses in brain tissue and levels of reactive oxygen species (ROS) in splenic lymphocytes from transgenic mice bearing human PS1 with the M146L mutation (PS1M146L) compared to those from mice transgenic for wild-type human PS1 (PS1wt) and nontransgenic littermate control mice. In brain tissue, HNE levels were increased only in aged (19-22 months) PS1M146L transgenic animals compared to PS1wt mice and not in young (3-4 months) or middle-aged mice (13-15 months). Similarly, in splenic lymphocytes expressing the transgenic PS1 proteins, mitochondrial and cytosolic ROS levels were elevated to 142.1 and 120.5% relative to controls only in cells from aged PS1M146L animals. Additionally, brain tissue HNE levels were positively correlated with mitochondrial ROS levels in splenic lymphocytes, indicating that oxidative stress can be detected in different tissues of PS1 transgenic mice. Antioxidant defenses (activities of antioxidant enzymes Cu/Zn-SOD, GPx, or GR) or susceptibility to in vitro oxidative stimulation was unaltered. In summary, these results demonstrate that the PS1M146L mutation increases mitochondrial ROS formation and oxidative damage in aged mice. Hence, oxidative stress caused by the combined effects of aging and PS1 mutations may be causative for triggering neurodegenerative events in FAD patients.     

Effects of aging and dietary antler supplementation on the calcium-regulating hormones and bone status in ovariectomized SAMP8 mice

This study was conducted to investigate the effects of aging and long-term dietary antler supplementation on the calcium-regulating hormones and bone status in ovariectomized (Ovx) SAMP8 mice. The female SAMP8 mice were divided into four groups (in each group n = 6), Ovx or sham operated at the age of 2 months, and fed with 0.2% antler containing diet or control diet from the age of 2.5 months. The samples were collected at the age of 3, 6, 9, 12, and 15 months, respectively, for physicochemical analyses, biochemical analyses, and the determination of hormones by radioimmunoassay. The results showed that plasma calcium (Ca) concentrations were maintained in a narrow range in all groups throughout the whole experimental period. With aging and/or ovariectomy, plasma parathyroid hormone (PTH) and 1,25-dihydroxycholecalciferol (1,25-(OH)2-D3) levels increased, and plasma phosphorus (P) and calcitonin (CT) levels decreased, and the femoral bone densities and Ca contents increased during the earlier stage, and then decreased gradually in all groups. Plasma PTH and 1,25-(OH)2-D3 levels in the Ovx mice were significantly higher than those in the intact mice, and plasma P concentrations, plasma CT levels, femoral bone densities, and femoral Ca contents in the Ovx mice were significantly lower than those in the intact mice. In addition, the decreases of plasma P levels, plasma CT levels, femoral bone densities, and femoral Ca contents, and the increases of plasma PTH levels were moderated by antler administration in both Ovx and intact mice. However, there was no effect of the dietary antler supplementation on the plasma 1,25-(OH)2-D3 levels in the female mice. It is concluded that prolonged dietary antler supplementation has important positive effects on bone loss with age and/ or ovarian function deficiency.     

Distribution of myonuclei and microtubules in live muscle fibers of young, middle-aged, and old mice.

We have recently published a new technique for visualizing nuclei in living muscle fibers of intact animals, based on microinjection of labeled DNA into single myofibers, excluding satellite cells (Bruusgaard JC, Liestol K, Ekmark M, Kollstad K, and Gundersen K. J Physiol 551: 467-478, 2003). In the present study, we use this technique to study fiber segments of soleus and extensor digitorum longus (EDL) muscles from mice aged 2, 14, and 23 mo. As the animals maturing from 2 to 14 mo, they displayed an increase in size and number of nuclei. Soleus showed little change in nuclear domain size, whereas this increased by 88% in the EDL. For 14-mo-old animals, no significant correlation between fiber size and nuclear number was observed (R2=0.18, P=0.51) despite a fourfold variation in cytoplasmic volume. This suggests that size and nuclear number is uncoupled in middle-aged mice. When animals aged from 14 to 23 mo, EDL IIb, but not soleus, fibers atrophied by 41%. Both EDL and soleus displayed a reduction in number of nuclei: 20 and 16%, respectively. A positive correlation between number of nuclei and size was observed at 2 mo, and this reappeared in old mice. The atrophy in IIb fibers at old age was accompanied by a disturbance in the orderly positioning of nuclei that is so prominent in glycolytic fibers at younger age. In old animals, changes in nuclear shape and in the peri- and internuclear microtubule network were also observed. Thus changes in myonuclear number and distribution, perhaps related to alterations in the microtubular network, may underlie some of the adverse consequences of aging on skeletal muscle size and function.     

Deletion of P21-activated kinase-1 induces age-dependent increased visceral adiposity and cardiac dysfunction in female mice

It is known that there is an age-related progression in diastolic dysfunction, especially prevalent in postmenopausal women, who develop heart failure with preserved ejection fraction (HFpEF, EF?>?50%). Mechanisms and therapies are poorly understood, but there are strong correlations between obesity and HFpEF. We have tested the hypothesis that P21-activated kinase-1 (PAK1) preserves cardiac function and adipose tissue homeostasis during aging in female mice. Previous demonstrations in male mice by our lab that PAK1 activity confers cardio-protection against different stresses formed the rationale for this hypothesis. Our studies compared young (3–6 months) and middle-aged (12–15 months) female and male PAK1 knock-out mice (PAK1^?/?) and wild-type (WT) equivalent. Female WT mice exhibited increased cardiac PAK1 abundance during aging. By echocardiography, compared to young WT female mice, middle-aged WT female mice showed enlargement of the left atrium as well as thickening of posterior wall and increased left ventricular mass; however, all contraction and relaxation parameters were preserved during aging. Compared to WT controls, middle-aged PAK1^?/? female mice demonstrated worsening of cardiac function involving a greater enlargement of the left atrium, ventricular hypertrophy, and diastolic dysfunction. Moreover, with aging PAK1^?/? female mice, unlike male PAK1^?/? mice, exhibited increased adiposity with increased accumulation of visceral adipose tissue. Our data provide evidence for the significance of PAK1 signaling as an element in the preservation of cardiac function and adipose tissue homeostasis in females during aging.

     

Spontaneous pituitary abnormalities and mammary hyperplasia in FVB/NCr mice: implications for mouse modeling

The FVB/N mouse strain is widely used in the generation of transgenic mouse models. We have observed that mammary glands of wild-type virgin female FVB/NCr mice frequently have the morphologic and histologic appearance of a gland during pregnancy. By 13 months of age, the mammary glands of more than 40% of the mice examined had lobuloalveolar hyperplasia that was characterized by the presence of secretory alveoli and distended ducts apparently containing secretory material. The prevalence of this phenotype further increased with age. The mammary phenotype was highly correlated with the presence of proliferative, prolactin-secreting lesions in the pituitary gland. In mice aged 18 to 23 months, hyperplasia of the pars distalis was seen in 11 of 21 mice (52%), and a further 4 of 21 mice (19%) had pituitary adenomas. Pituitary hyperplasia was already evident in some mice as young as nine months. The pituitary phenotype was also associated with high prevalence (4/6 mice) of spontaneous mammary tumors in aged multiparous, but not virgin FVB/NCr mice. This high prevalence of pituitary abnormalities and their effects on the mammary gland have important consequences for the interpretation of new phenotypes generated in transgenic models using this mouse substrain.     

高等植物葡萄糖-6-磷酸脱氢酶与6-磷酸葡萄糖酸脱氢酶基因的不同进化起源

葡萄糖-6-磷酸脱氢酶与6-磷酸葡萄糖酸脱氢酶是植物戊糖磷酸途径中的两个酶.在克隆了水稻质体葡萄糖-6-磷酸脱氢酶基因OsG6PDH2和质体6-磷酸葡萄糖脱氢酶基因Os6PGDH2基础上,分析比较了水稻胞质和质体葡萄糖-6-磷酸脱氢酶基因和6-磷酸葡萄糖酸脱氢酶基因的基因结构、表达特性和进化地位.结合双子叶模式植物拟南芥两种酶基因的分析结果,认为高等植物葡萄糖-6-磷酸脱氢酶基因和6-磷酸葡萄糖酸脱氢酶基因在进化方式上截然不同,葡萄糖-6-磷酸脱氢酶的胞质基因与动物和真菌等真核生物具有共同的祖先;6-磷酸葡萄糖酸脱氢酶的胞质酶和质体酶基因都起源于原核生物的内共生.讨论了植物葡萄糖-6-磷酸脱氢酶与6-磷酸葡萄糖酸脱氢酶基因可能的进化模式,为高等植物及质体的进化起源提供了新的资料.