小鼠胚胎卵巢卵泡体外无血清培养体系的建立(英文)

调节原始卵泡形成、起始生长的信号目前仍知之甚少。一个重要的原因就是缺乏一个良好的研究模型。我们以妊娠１３天昆明白小鼠胚胎卵巢为研究材料,经过５天的贴壁培养后,分别用牛血清（ＦＢＳ）、无血清（ＩＴＳ）和含有人卵泡刺激素（ＦＳＨ－ＩＴＳ）培养液继续体外培养到第１９天,发现ＩＴＳ组培养的胚胎卵巢卵泡发育要显著优于ＦＢＳ组（Ｐ＜０．０１）,如：培养至第７天时（Ｐ１,相当于出生日）,卵泡数分别为２９５±１８和 ２０６±１７;培养至第１３天时（Ｐ７）,卵泡数分别为 ５９４±３１和 ２６２±２８;培养至第１９天时（Ｐ１３）,卵泡数分别为 ３７１±２５和 ５０±１１（Ｆｉｇ．１,２＆４）。ＩＴＳ处理组的绝大部分卵巢在培养早期（如：Ｐ５前）都形成了皮质－髓质样的卵泡生长模式,而ＦＢＳ处理组超过半数卵巢不能形成皮质一髓质样的卵泡生长模式;ＦＳＨ－ＩＴＳ处理组和ＩＴＳ处理组的胚胎卵巢卵泡发育并无显著差异（Ｆｉｇ．２,４＆５）。 结果提示所建立的以ＩＴＳ为血清替代物的无血清培养模型更益于小鼠胚胎卵巢卵泡的体外发育;ｈＦＳＨ不是小鼠胚胎卵巢早期发生发育所必须的。     

小鼠卵巢冷冻移植后卵泡发育和卵母细胞成熟的研究

本研究探讨了冷冻保存的1日龄小鼠卵巢异体异位移植后,其原始卵泡重新启动生长发育的能力。一日龄B6C2F．小鼠卵巢分离冷冻后置液氮中保存,保存1周。6个月后解冻,并将卵巢移植到8-12周龄B6C2F．受体鼠。肾脏包膜下,移植至少14d。每侧肾囊移植2枚卵巢的40只受体鼠中卵巢的回收率为45．00％（72／160）,而每侧。肾囊移植l枚卵巢的20只受体鼠的回收率为82．50％（33／40）。移植卵巢上卵泡的发育基本与体外自然生长鼠的卵巢卵泡发育情况一致。对卵巢移植19d的受体鼠用孕马血清促性腺激素（pregnant mare serum gonadotrophin,PMSG）处理后,从移植卵巢上发育成熟卵泡中获得的卵母细胞在MEM0c培养基中培养16-17h,有40．90％的卵母细胞发生生发泡破裂（germinal vesicle breakdown,GVBD）,其中89．02％的卵母细胞发育到第二次减数分裂中期（metaphaseⅡ,MⅡ）。将剩余的卵母细胞继续培养到20～21h,又有50．83％的卵母细胞发生生发泡破裂,但其中只有21．40％的卵母细胞能够发育到MII期。以上结果说明,小鼠早期卵巢经过冷冻．解冻并异体异位移植后,其原始卵泡能够重新启动生长发育,发育后的卵泡卵母细胞能够在体外培养成熟。这些结果意味着原始卵泡或卵巢冷冻一移植技术有可能充分利用雌性生殖细胞用于濒危动物保种、建立动物基因库和人类辅助生殖等。     

新生小鼠卵巢移植雄鼠肾囊下卵泡的生长发育

将1日龄小鼠卵巢移植入成年雄鼠肾囊下,分别于移植后18d、36d回收移植卵巢进行形态学、组织学观察,以评价卵巢移植体在成年雄性受体小鼠体内生长及卵泡发育潜能。结果表明:移植体生长增大,有各级生长卵泡发育;18日龄移植体平均直径为1881.1μm±204.7μm,与1日龄卵巢相比差异极显著(P<0.01),卵泡发育到有腔卵泡阶段;36日龄移植体平均直径达2575.3μm±466.4μm,显著大于18日龄移植体(P<0.01),有成熟卵泡出现,未观察到黄体;从移植体分离到GV期卵母细胞和卵丘卵母细胞复合体。研究表明1日龄小鼠卵巢移植体在雄性受体生理环境中具有正常生长发育和形成成熟卵泡的潜能。     

哺乳动物卵母细胞异位发育技术及其研究进展

综述了哺乳动物卵巢移植在生物医学上的应用,及借助卵巢异位发育研究卵巢卵母细胞发育机制的研究进展;详细介绍了卵巢移植的不同技术方法,及移植后卵巢卵母细胞的发育、激素的调节机制,分析了卵巢移植早期卵泡生长和凋亡的分子机理及其在移植医学中的应用前景,并就新鲜和冻融卵巢如何用于动物辅助生殖进行了阐述.特别关注卵巢卵母细胞异种移植的潜在价值,卵巢异种移植不仅可以保存稀有和濒危物种,还可以为当前辅助生殖技术提供一个理想的实验手段.     

发情周期不同时期猪卵泡颗粒细胞凋亡的观察

为探讨猪发情周期不同时期卵泡发育和闭锁的规律及机理,本实验通过TUNEL原位标记,H,E．染色以及放射免疫测定等手段研究了猪发情周期不同阶段卵巢表面各类卵泡数量的变化。各类卵泡中颗粒细胞的凋亡比例,闭锁卵泡的形态变化以及发情周期各阶段血清孕酮及雌二醇水平的变化等问题。卵泡的总数在发情间期最多,为26．8个／卵巢,发情期最少,为7．4个／卵巢。小放泡的数量在发情间期最多。为15个／卵巢,在发性期数量最少,为5．7个／卵巢。中等卵泡数量在发情间蜞多,为8．5个／卵巢,在发情后期卵巢中无中等卵泡。大卵泡的数量在发情前期最多,为7．4个／卵巢,在发情后期最少,为0个。小卵泡的颗粒细胞凋亡比例（各时期平均21．03％）显著高于大卵泡,在发情后期显著降低。中等卵泡的颗粒细胞凋亡比例（平均16．6％）在发情前期显著低于其它各期。大卵泡的颗粒细胞凋亡比例（平均11．2％）在发情周期各阶段无显著差异,均显著低于中等卵泡和小卵泡。     

孕酮受体在雌性小鼠生殖系统中的分布及RU486对其影响

用免疫细胞化学ＬＳＡＢ法,兔抗人孕酮受体抗体（适用于小鼠）显示小鼠卵巢、输卵管、子宫和阴道中的孕酮受体。结果显示：未注射ＲＵ４８６的动物的子宫与阴道内孕酮受体丰富,输卵管中含量较少,卵巢中未见阳性反应物质。ＲＵ４８６注射４天后,子宫与阴道中孕酮受体明显减少;注射后７天,输卵管、子宫和阴道都为阴性反应。该结果显示了孕酮受体在雌性小鼠生殖系统内的分布特点,提示ＲＵ４８６封闭孕酮受体的最佳时间为用药后第７天。     

人重组卵泡刺激素和表皮生长因子对性未成熟小鼠卵母细胞和颗粒细胞复合体体外发育的作用

卵泡刺激素（FSH）对有腔卵泡和排卵前卵泡的促生命作用已被普遍接受,但关于其对腔前卵泡发育的作用报道结果不尽相同,关于表皮生长因子（EGF）对腔前卵泡的作用尚不确切,本研究目的在于探讨人重组卵泡刺激素（rechFSH)和EGF对早期卵泡发育的作用,利用胶原酶消化法从12日龄的小鼠卵巢中分离得到卵母细胞－颗粒细胞复合体（OGCs)(Fig.1)。体外每孔30－40个培养物并分别添加胎牛血清（FBS）,rechFSH和EGF。培养物每4天测量卵母细胞和OGCs直径,并每天照相,结果显示,rechFSH显著促进小鼠OGCs 及其卵母细胞的体外发育,这一作用可被EGF进一步增强（P＜0．05）（Fig.2),但到第八天培养结束时,培养后的OGCs卵母细胞要显著小于体内期生长对照组（P＜0．05）（Fig.3),说明FSH和EGF在卵泡早期发育中起重要作用。     

雌性恒河猴月经周期FSH、LH分泌水平的研究

本文采用改进的体外生物测定法分析恒河猴月经周期中促卵泡刺激素（ＦＳＨ）、促黄体生成素（ＬＨ）的变化情况。结果表明：雌猴的ＦＳＨ峰出现在月经周期的第１０２±１０天,峰值：５７２±４８ｎｇ／ｍｌ;ＬＨ峰出现在月经周期的第１２０±１６天,峰值：９６３±９７ｎｇ／ｍｌ,且为滤泡期、黄体期平均值的７～８倍。证实了在雌性恒河猴的月经周期中,其ＬＨ分泌高峰与ＦＳＨ分泌高峰不在同一时间出现的现象。     

改良大鼠子宫内膜异位症模型的建立及微血管密度观察

目的对皮下筋膜层与腹壁肌层之间移植自体子宫内膜制作的子宫内膜异位症（endometriosis,EMs）模型进行评估。方法取10只雌性未交配性成熟大鼠,术前雌激素诱导,手术开腹取右侧子宫,将自体子宫内膜种植于双侧皮下筋膜层与腹壁肌层之间,术后第29天取出异位组织,进行组织形态学观察,免疫组织化学染色观察微血管密度（Microvessel density,MVD）。结果异位内膜在腹壁内生长,呈隆起囊状小包块,内有黏液,具有正常子宫内膜基本组织结构。异位内膜中微血管密度较在位内膜和正常子宫内膜高。结论此手术方法建立的大鼠子宫内膜异位症模型异位内膜病理改变与EMs患者类似,可以作为子宫内膜异位研究的动物模型。     

人胎儿卵巢异种移植的组织学研究

目的探讨人胎儿卵巢组织异体移植的最佳条件。方法观察胎儿卵巢进行异种移植后的组织学变化,并计算各组移植卵巢内各期卵泡的发育情况及卵泡构成比。结果新鲜的卵巢组织、体外培养的卵巢组织以及冷冻复苏后经体外培养的卵巢组织移植后,其内有原始卵泡发育,而且可见丰富的血管网;未见明显的淋巴细胞浸润现象。结论人胎儿卵巢组织(包括新鲜的卵巢组织、体外培养的卵巢组织以及冷冻复苏后经体外培养的卵巢组织)异种移植后原始卵泡在受体体内能进一步发育,生长卵泡分泌的雌激素有调节子宫内膜周期性变化的作用。     

Acute decrease in vitellogenin synthesis by deprivation of food and water in laying hens

Vitellogenin synthesis during a decrease in egg production caused by depriving food and water was investigated in Single Comb White Leghorn hens. They were transferred from long days of 14L: 10D to short days of 10L: 14D 5 days before food and water deprivation. Then food was deprived for 5 days and water for 2 days. The body weight was markedly decreased by the treatment and reached its minimum after 5 days. The egg production rate which was 85% before the treatment was nil after 4 days. On day 3 the circulating vitellogenin concentrations, measured by a newly established RIA system, was markedly decreased by deprivation of food and water to 22% of the pretreatment level. The concentrations remained less than 10% during cessation of egg laying. Serum luteinizing hormone (LH) and progesterone concentrations decreased gradually, but estradiol 17 beta (E2) decreased abruptly. This acute decrease closely coincided with the decrease in egg production and the weight of the oviduct and ovary. These concentrations were gradually increased after day 16 and returned to the normal level after 46 days. Circulating thyroxine (T4) and triiodothyronine (T3) concentrations gradually increased from the beginning of the change in the day length and peaked on day 7 or 9, whereas reverse (r)T3 rapidly increased. The concentrations again decreased at the beginning of molting which occurred later due to the deprivation of food and water. Thus, these results demonstrated for the first time that the decrease in egg production induced by deprivation of food and water closely related to the decrease in vitellogenin synthesis as well as gonadal and pituitary functions. Further, recovery of egg production was coupled with the increase in the ovary and oviduct weight, and circulating LH, E2, progesterone, and vitellogenin.     

Collagen accumulation can continue with decreased prolyl hydroxylase activity in the liver

A single dose of dimethylnitrosamine dose-relatedly increased total hepatic hydroxyproline content in rats 14 days after the dosing. In cases of 35 mg/kg of dimethylnitrosamine, it increased rapidly to 1.7 times the normal level within 14 days. This increase persisted thereafter until 84 days. Hepatic collagen prolyl hydroxylase activity was 1.8 times the normal level by the fourth day after the dosing but normalized within 14 days. It decreased further to levels significantly lower than those in normal rats at 28, 56 and 84 days. Serum glutamic pyruvic transaminase activity was about 13 times the normal level at 2 days and normalized after 7 days. On histology, fiber developed in necrotic areas around the central veins after 7 days and remained after 28 days when the necrosis had already disappeared. These results suggest that abnormal collagen can continue to increase in the state of decreased collagen prolyl hydroxylase activity in the liver.     

淹水解除后玉米幼苗形态及光合生理特征恢复

以郑单958为试验材料,在盆栽条件下研究了淹水及淹水解除后玉米幼苗根系、叶片形态、光合生理及植株的恢复生长.结果表明:(1) 淹水总体上抑制玉米幼苗根系生长,短期淹水(7d)导致根系总长度、根系表面积、根系体积均显著降低,随着淹水时间延长(14d)玉米根系产生大量不定根,使得根系总长度、根系表面积、根系体积显著升高(P＜0.01);(2)淹水条件下叶片生长同样受到抑制,玉米叶面积、叶型指数和可见叶片数均显著下降;(3)淹水条件下玉米幼苗的光合性能下降,光合色素总含量降低,但短期淹水(7d)后叶绿素a/b值提高;气孔限制(Ls)是淹水7d植株光合速率下降的主要因素,而非气孔限制则是淹水14d植株光合速率下降的主要因素.(4)淹水处理7d、14d后的玉米幼苗均能够恢复生长,但恢复生长速率随淹水时间延长而降低;在恢复生长过程中,光合生理指标恢复早于形态恢复,强光对于淹水后幼苗恢复生长具有明显的抑制效应.     

MULTIPLICATION OF HAEMOPOIETIC COLONY FORMING UNITS (CFU) IN MICE AFTER X-IRRADIATION AND BONE MARROW TRANSPLANTATION

Kinetics of the multiplication of haemopoietic CFUs was studied in lethally irradiated mice receiving various numbers of syngeneic bone marrow cells. After transplantation of a small number of bone marrow cells, the growth rate of CFU in femoral bone marrow appeared to decrease after about 10 days after transplantation, before the normal level of CFU in the femur was attained. In the spleen it was found that the overshoot which was observed about 10 days after transplantation of a large number of bone marrow cells is smaller or absent when a small number of cells is transplanted. Experiments dealing with transplantation of 50 x 10⁶ bone marrow cells 0, 4 or 10 days after a lethal irradiation indicated that the decline in growth rate of CFUs about 10 days after irradiation could not be attributed to environmental changes in the host.
The results are explained by the hypothesis that a previous excessive proliferation of CFUs diminishes the growth rate thereafter. This hypothesis is supported by experiments in which 50 x 10⁶ bone marrow cells derived from normal mice or from syngeneic chimaeras were transplanted. The slowest growth rate was observed when bone marrow that had been subjected to the most excessive proliferation in the weeks preceding the experiment was transplanted.     

Histological classification of oocyte growth and the dynamics of ovarian recrudescence in Tilapia zillii

Serum levels of 17β-oestradiol and testosterone peaked and fell within 6 days of spawning in Tilapia zillii suggesting that vitellogenic growth began as early as day 2 or 3 postspawning. As early as day 8, stage 6/7 (late nitellogenic and maturing) oocytes occupied 60–70% of the ovary. From day 8 onwards the proportion of stage 6/7 oocytes changed little, though I _G increased (as oocytes grew) to reach maximal levels of ∼ 5·5% by day 14. I _G was correlated significantly to the proportion of stage 6/7 oocytes. Postovulatory follicles were observed immediately following spawning occupying up to ∼ 7% of the ovary but were not present from day 3 onwards. Atretic oocytes were found throughout the time period monitored (generally occupying <2% of the ovary) but were more prevalent from day 18 onwards. Data suggest that previtellogenic oocytes are recruited into vitellogenic growth immediately after spawning and can complete vitellogenesis as early as day 8 postspawning. Knowledge of this timing is likely to be important in the development of spawning induction programmes in T. zillii and other related species.     

Skeletal muscle fiber regeneration following heterotopic autotransplantation in cats.

Whole 3 g extensor digitorum longus (EDL) muscles of cats were autotransplanted. The EDL muscles were either transplanted without denervation prior to transplantation (normal transplants) or denervated 3 to 4 weeks prior to transplantation (pre-denervated transplants). A few peripheral skeletal muscle fibers survived transplantation but most fibers degenerated and then regenerated as the transplant became revascularized. Both normal and pre-denervated muscles regenerated successfully and by 50 days after transplantation fibers which had reinnervated showed high and low myofibrillar ATPase activity. Compared to controls, the smaller mean fiber cross-sectional area of the transplants was due to the large number of small fibers, but some fibers in the transplant were larger than any fibers observed in the controls. Transplants regained 57 percent of the muscle mass of the controls. Contraction and half relaxation times of transplanted muscles were slower than controls, but peak isometric tetanus tension per cm² of muscle was nearly normal. Fifty to 170 days after transplantation, muscles showed low oxidative capacity and fatigued rapidly.     

育苗移栽对麦套棉^14CO2同化量及运转分配的影响

育苗移栽不仅使陆地棉(Gossypium hirsutum L.)株在苗期、蕾期、花铃期的(14)~CO_2同化强度和同化量显著提高,而且对上述各生育期同化产物向籽棉的再动员具有明显的促进作用。各期标记后3d的测定结果显示,育苗移栽增加了棉苗同化物质向根系中的分配而减少了向顶芽的分配,有利于促根壮苗;使蕾期同化物质向顶芽和边心的分配比例下降,有利于控制棉花的营养生长,防止或减轻茎叶狂长,使棉株健壮稳长,促进花芽分化;在花铃期,促使更高比例的同化物质向成铃中分配,有利于蕾铃发育。     

Time of ovarian follicular recruitment in cyclic pony mares

An experiment was carried out on pony mares to establish the time of the oestrous cycle at which ovarian follicles are recruited for ovulation. In one group (n=7), the cycle was interrupted at the preovulatory stage by removing the preovulatory follicle; in another group (n=13) the cycle was interrupted at day 6 of the luteal phase by inducing luteolysis with a prostaglandin injection (PG). In a subgroup (n=7) of those given PG, the ovary not bearing the corpus luteum was removed at the time of injection. A further group (n=6) served as surgical controls. The interval to the next ovulation and blood concentrations of FSH were observed. Anaesthesia alone induced in preovulatory mares was followed by normal ovulation 2.5+/-1 days later. Removal of the preovulatory follicle delayed the next ovulation (14.6+/-2.1 days; P < 0.01). Following PG injection, the interval to ovulation was similar regardless of whether an ovary was removed (12.8+/-4.3 days) or not (10+/-4.1 days). This similarity occurred despite a large and prolonged rise in plasma FSH levels that occurred only in the hemiovariectomized group. In addition, the intervals found after PG injection did not differ from those found after ablation of the preovulatory follicle. These observations indicate that 1) in the presence of the early active corpus luteum or dominant follicle, follicles grow to a similar stage of development; 2) recruitment of the follicle due to ovulation occurs 12 to 14 days before ovulation; 3) limiting new follicular growth to one ovary does not affect the time course to ovulation; and 4) prolonged high FSH levels do not alter the time course or ovulation rate.     

BMSCs移植对视神经损伤家猫RGCs损伤及BDNF表达的影响

目的:探讨玻璃体腔内注射移植体外培养的骨髓间充质干细胞(Bone marrow mesenchymal stem cells, BMSCs)对家猫视神经损伤后视网膜神经节细胞(Retinal ganglion cells, RGCs)的影响及其可能的作用机制。方法:参照标准化家猫外伤性视神经损伤动物模型建立的方法建立右眼视神经夹伤家猫模型,然后将其分为以下四组:(1)A组:右眼BMSCs注射移植组,玻璃体腔内接受注射移植BMSCs浓度为1×10~5细胞/μL的单细胞悬液0.1 m L;(2)B组:右眼PBS注射组,玻璃体腔内注射PBS缓冲液0.1 mL;(3)C组:假损伤控制组,BMSCs左眼组,仅暴露视神经而不损伤,不接受治疗;(4)D组:正常对照组,PBS左眼组,正常眼,不做任何处理。分别在移植后的3、7、14及28天,用免疫荧光染色双十八烷基四甲基吲哚羰基花青高氯酸盐染色标记法观察分离视网膜的RGCs存活率,用双抗体一步夹心法酶联免疫吸附试验方法检测分离视网膜的脑源性神经营养因子(Brain derived neurotrophic factor, BDNF)的含量。结果:术后3、7、14及28天,在周边区及中央区视网膜上RGCs密度均显著减少(周边区:P3d=0.0446, P7d=0.0011, P14d 0.001, P28d0.001;中央区:P3d=0.0437, P7d=0.0067, P14d0.001, P28d0.001)。7天、14天、28天后,A组RGCs密度及BDNF含量均显著高于B组(P0.05)。结论:BMSCs移植可以减缓外伤性视神经损伤家猫RGCs凋亡,可能与其增加BDNF表达有关。     

Adenohypophysis regulates cell proliferation in the gonads of the developing chick embryo

The aim of the present study was to evaluate the effect of hypophysectomy on cell proliferation in the left ovary and the left testis of 8- to 14-day-old chick embryos. Hypophysectomy was performed by the partial decapitation technique. At 44-46 h of incubation, chick embryo heads were sectioned at the mesencephalic level and the prosencephalic region removed. Embryos were further incubated until 8-14 days of development. Cell division was evaluated by bromodeoxyuridine (BrdU) incorporation and by counting the total number of somatic and germ cells in the gonads. The ovary displayed an exponential increase in the number of somatic and germ cells and a higher rate of BrdU incorporation compared to the testis. BrdU incorporation was reduced in the ovary of hypophysectomized embryos at 9-14 days of incubation, while in the testis, the reduction was significant at 14 days of development. Changes in the total number of somatic and germ cells further suggest that the absence of hypophysis affects the growth of the ovary earlier than the growth of the testis. Reduction in the number of somatic and germ cells after hypophysectomy in the ovary was reversed by a hypophyseal graft on the chorioallantoic membrane. The adenohypophysis regulates, probably through gonadotropic hormones, proliferation of somatic and germ cells in the gonads during chick embryo development.