ライフサイエンスコーパス: primordial follicle

1 ngle layer of somatic (granulosa) cells in a primordial follicle.

2 , but was low in oocytes within newly formed primordial follicles.

3 oximately 33% of the oocytes survive to form primordial follicles.

4 ed in dramatically smaller ovaries and fewer primordial follicles.

5 ion characterized by premature exhaustion of primordial follicles.

6 st in non-growing oocytes (NGOs) residing in primordial follicles.

7 nce of meiotic arrest in oocytes residing in primordial follicles.

8 i, was ablated in mouse oocytes beginning in primordial follicles.

9 ollicle and activates an excessive number of primordial follicles.

10 ia that support the growth and maturation of primordial follicles.

11 alian females, germ cells remain arrested as primordial follicles.

12 ontrol cell death pathways in the oocytes of primordial follicles.

13 BMP2-BMPR system leading to the formation of primordial follicles.

14 cysts into individual oocytes housed within primordial follicles.

15 mature activation of all dormant oocytes and primordial follicles.

16 spermatogonial stem cells and the origin of primordial follicles.

17 erage that eventually give rise to about six primordial follicles.

18 serum estradiol levels and the formation of primordial follicles.

19 nation of oocyte numbers and the assembly of primordial follicles.

20 ferentiate into granulosa cells of quiescent primordial follicles.

21 m cells; (c) pre-granulosa cells surrounding primordial follicles.

22 the survival of germ cells in newly formed (primordial) follicles.

23 sts may ensure that oocytes destined to form primordial follicles acquire populations of functional m

24 Precise control of primordial follicle activation (PFA) is essential for re

25 y, homozygous Kit(Y719F) female mice undergo primordial follicle activation and are fertile, demonstr

26 sis of the contribution of Kit in regulating primordial follicle activation and early follicle growth

27 ib, and ruxolitinib can specifically inhibit primordial follicle activation and repress folliculogene

28 n with the unique characteristic of blocking primordial follicle activation that could be exploited t

29 3-kinase (PI3K) signalling pathway controls primordial follicle activation through the forkhead tran

30 logic role of the PI3K pathway is to control primordial follicle activation via Foxo3.

31 tudies as the critical upstream regulator of primordial follicle activation via PI3K/Akt.

32 and Foxo3 nuclear export, thereby triggering primordial follicle activation, defining the steps by wh

33 has been proposed as a negative regulator of primordial follicle activation.

34 Their growth resumes via a process known as primordial follicle activation.

35 sition, but argue that Kit is dispensable in primordial follicle activation.

36 llicles resume growth via a process known as primordial follicle activation.

37 norepinephrine fails to maintain a quiescent primordial follicle and activates an excessive number of

38 the somatic pfGCs initiate the activation of primordial follicles and govern the quiescence or awaken

39 ryonic exposure to ATZ reduces the number of primordial follicles and increases the incidence of mult

40 ctive-caspase-3 (p = 0.0001) staining in the primordial follicles and no change in the growing follic

41 bout how the pfGCs control the activation of primordial follicles and the developmental fates of dorm

42 ads and performed lineage tracing to analyze primordial follicles and wave 1 medullar follicles durin

43 ncreased offspring, accelerated depletion of primordial follicles, and ultimately premature infertili

44 relatively complete picture of how mammalian primordial follicles are activated.

45 Primordial follicles are formed perinatally in mammalian

46 In mammals, primordial follicles are generated early in life and rem

47 resenting two mechanisms: an initial pool of primordial follicles as the only follicle source (fixed

48 In mammals, primordial follicles assembled in fetuses or during infa

49 erm cell cyst (GCC) breakdown; (iv) advanced primordial follicle assembly and primary follicle transi

50 arian cells and unearths new insights during primordial follicle assembly in mice.

51 Primordial follicle assembly in the mouse occurs during

52 Foxo3 is imported into the nucleus during primordial follicle assembly, and is exported upon activ

53 vironmental factors can specifically perturb primordial follicle assembly.

54 eport that some quiescent primary oocytes in primordial follicles become senescent in adult mouse ova

55 mouse neonatal germline cysts and oocytes of primordial follicles but disperses as follicles begin to

56 specifically causes apoptotic cell death of primordial follicles but does not affect other periphera

57 tro, increased the number of postnatal mouse primordial follicles by 30% when administered to neonata

58 ary are dormant oocytes that are enclosed in primordial follicles by several somatic cells, which we

59 The microenvironment surrounding primordial follicles can activate mTORC1-KITL signaling

60 The loss of primordial follicles causes ovarian aging.

61 C57/Bl6 mouse ovaries densely populated with primordial follicles, CCND2 protein co-localised and was

62 d a reciprocal decrease in the proportion of primordial follicles compared with normal ovaries.

63 At birth, the ovary contains primordial follicles consisting of meiotically arrested

64 Primordial follicles, consisting of granulosa cell (GC)-

65 OR inhibition preserves the ovarian reserve, primordial follicle counts, serum anti-Mullerian hormone

66 phamide injection and serially sectioned for primordial follicle counts.

67 otreatment, concomitant with preservation of primordial follicle counts.

68 Although there was 12% reduction in primordial follicle density by 12 h following treatment

69 in Kit(Y719F) ovaries, including accelerated primordial follicle depletion and accumulation of morpho

70 varian insufficiency is chemotherapy-induced primordial follicle depletion, which has been proposed t

71 pre-granulosa cells in time and space, with primordial follicles deriving from later emerging pre-gr

72 The pool of primordial follicles determines the reproductive lifespa

73 to granulosa cells after the newly assembled primordial follicles develop into growing primary follic

74 ation to immune-deficient mice for 6 months, primordial follicles developed to the preovulatory stage

75 and ANM are shown to correspond to gaps when primordial follicles fail to grow for 7 and 12 days, res

76 riments suggest that NR5A2 expression poises primordial follicles for entry into the developing pool.

77 gnaling and KIT ligand in granulosa cells of primordial follicles for follicle activation and for rep

78 through interaction with factors regulating primordial follicle formation and steroidogenesis.

79 on and interaction with somatic cells before primordial follicle formation are largely unknown.

80 ole in perinatal germline cyst breakdown and primordial follicle formation by regulating E-cadherin j

81 rks that regulate oocyte differentiation and primordial follicle formation during early, postnatal mo

82 significantly suppressed cyst breakdown and primordial follicle formation in cultured mouse ovaries.

83 Estradiol-17ss (E) promotes primordial follicle formation in vivo and in vitro; howe

84 rane-impermeable BSA-conjugated P4 inhibited primordial follicle formation similar to that by P4.

85 Dazl determines primordial follicle formation through the translational

86 Progesterone (P4) inhibits primordial follicle formation under physiological condit

87 nerate a list of candidate genes involved in primordial follicle formation, including podocalyxin (Po

88 ment with an FSH-antiserum, which suppressed primordial follicle formation, prevented the decline in

89 signaling plays a role in cyst breakdown and primordial follicle formation, we used ovary organ cultu

90 elop around growing oocytes from the time of primordial follicle formation.

91 crucial period of development leading up to primordial follicle formation.

92 g is crucial for germline cyst breakdown and primordial follicle formation.

93 inhibition of oocyte meiotic prophase I and primordial follicle formation.

94 during perinatal development with respect to primordial follicle formation.

95 of somatic cells into granulosa cells during primordial follicle formation.

96 0 weeks gestation, i.e. preceding and during primordial follicle formation.

97 present in both oocytes and somatic cells as primordial follicles formed.

98 model illustrates the decline in the pool of primordial follicles from age 20 to menopause as reporte

99 Primordial follicles generated during fetal life are hig

100 several somatic cells, which we refer to as primordial follicle granulosa cells (pfGCs).

101 phosphamide up-regulated p-CHK2 and depleted primordial follicles in Abl1 knockout mice.

102 Global activation of primordial follicles in artificial ovaries can result in

103 eficiency prevents elimination of oocytes in primordial follicles in female mice exposed to radiation

104 st ensure that the reserve of oocytes within primordial follicles in humans lasts for up to 50 years,

105 We found significantly more primordial follicles in MIS-treated animals than in cont

106 The frequency of primordial follicles in PND4 conditional knockout (cKO)

107 wave 2, are stored for later use as resting primordial follicles in the cortex.

108 ovary results in the formation of many fewer primordial follicles in the juvenile ovary, although the

109 fetal development and consists of quiescent primordial follicles in the ovarian cortex each composed

110 and theca cell recruitment as well as fewer primordial follicles in the ovarian cortex, causing a fa

111 an reserve represents the stock of quiescent primordial follicles in the ovary which is gradually dep

112 lt female Bax-/- mice possess threefold more primordial follicles in their ovarian reserve than their

113 maturation approaches and support growth of primordial follicles in vitro.

114 Germ-free mice have fewer primordial follicles, increased atresia, and ovarian fib

115 The formation of primordial follicles involves the interaction between th

116 The development of primordial follicles is controlled by a complex network

117 e diepoxide (VCD), selective for primary and primordial follicles, is injected intraperitonelly in an

118 the Foxl2 lineage tag also marked about 400 primordial follicles, located near the medullary-cortica

119 ocyte-specific Trp63 knockout mice prevented primordial follicle loss and maintained reproductive fun

120 es and that senescent cell clearance reduced primordial follicle loss and mitigated ovarian aging phe

121 Prostate disease, ovarian primordial follicle loss and polycystic ovary disease we

122 , pubertal abnormalities in females, ovarian primordial follicle loss and polycystic ovary disease we

123 re, we have probed how stochastic control of primordial follicle loss might relate to the distributio

124 essential functional unit of the ovary, the primordial follicle, occurs during fetal life in humans.

125 RNA-sequencing on laser-captured individual primordial follicle oocytes 12 h after a single cyclopho

126 apoptosis, rather than growth activation of primordial follicle oocytes in the human ovary.

127 qRT-PCR and immunostaining confirmed that in primordial follicle oocytes, cyclophosphamide did not ch

128 Primordial follicle (PF) pool determines the availabilit

129 number and an increase in the proportion of primordial follicles (PMFs), with smaller oocytes within

130 Physiologically, the size of the primordial follicle pool determines the reproductive lif

131 In the mouse ovary, the primordial follicle pool is established through a divers

132 disease (PCO) and a decrease in the ovarian primordial follicle pool size resembling primary ovarian

133 cle source (fixed pool model), or an initial primordial follicle pool supplemented by germline stem c

134 ility with major defects in stability of the primordial follicle pool, ovarian folliculogenesis, ovul

135 nciding with the end of the formation of the primordial follicle pool.

136 ll model was tested using a range of de novo primordial follicle production rates.

137 ng hormone on follicle growth and inhibiting primordial follicle recruitment.

138 et of menopause as measured by the number of primordial follicles remaining in the ovaries.

139 cific roles of Kit in the maintenance of the primordial follicle reserve and in the primary to second

140 equired for the initial establishment of the primordial follicle reserve at birth.

141 germ-cell toxicant busulphan eliminates the primordial follicle reserve by early adulthood without i

142 cell cyst breakdown and establishment of the primordial follicle reserve during a critical window of

143 The impact of cyclophosphamide on primordial follicle reserve in our human ovarian xenogra

144 In mammalian females, quiescent primordial follicles serve as the ovarian reserve and su

145 and primordial follicles were positive, with primordial follicles showing only weak focal positivity.

146 y inactivated the mouse Smc1beta gene at the primordial follicle stage shortly after birth, when oocy

147 be expressed during prophase I prior to the primordial follicle stage to ensure SCC up to advanced a

148 h 2 mg/kg cisplatin for 15 days can activate primordial follicles, suggesting that the response in th

149 H) induced a greater proportion of quiescent primordial follicles than control ExECs, indicating supp

150 lish associations with somatic cells to form primordial follicles that create a store of germ cells (

151 The ovary contains oocytes within immature (primordial) follicles that are fixed in number at birth.

152 secondary follicles were transferred back to primordial follicles, the earliest stage of follicular d

153 nalling in the maintenance and activation of primordial follicles, through SMAD-dependent and indepen

154 us AMH show that the transfer of non-growing primordial follicles to the active state can be slowed e

155 Periodically, subsets of primordial follicles undergo further development during

156 an ovaries, immature oocytes are reserved in primordial follicles until their activation for potentia

157 ing an individual woman's ovarian reserve of primordial follicles using mathematical random walks rep

158 ggesting that the response in the oocytes of primordial follicles was dependent on cisplatin concentr

159 Its effects upon the progression of primordial follicles were assessed in cultures of mouse

160 ugh embryonic gonadogenesis appeared normal, primordial follicles were not formed at birth, and massi

161 Two subsets of primordial follicles were observed in wildtype ovaries:

162 Granulosa cells in both primary and primordial follicles were positive, with primordial foll

163 survival is dependent upon the formation of primordial follicles, which occurs during fetal life in

164 oocytes are packaged into compact structures-primordial follicles-which remain inert for prolonged in

165 f 5 mg/kg cisplatin: the death of oocytes in primordial follicles without indication of activation.