Lin28 gene and mammalian puberty

Lin28a and Lin28b, homologs of the Caenorhabditis elegans Lin28 gene, play important roles in cell pluripotency, reprogramming, and tumorigenicity. Recently, genome‐wide association and transgenic studies showed that Lin28a and/or Lin28b gene were involved in the onset of mammalian puberty, the stage representing the attainment of reproduction capacity; however, the detailed mechanism of these genes in mammalian puberty remains largely unknown. The present paper reviews the research progress on the roles of Lin28a/b genes in the onset of mammalian puberty by analyzing the results coming from gene expression patterns, mutations, and transgenic studies, and put forward possible pathways for further studies on their roles in animal reproduction.     

Tumor suppressor p53 plays a key role in induction of both tristetraprolin and let-7 in human cancer cells

Tristetraprolin (TTP) and let-7 microRNA exhibit suppressive effects on cell growth through down-regulation of oncogenes. Both TTP and let-7 are often repressed in human cancers, thereby promoting oncogenesis by derepressing their target genes. However, the precise mechanism of this repression is unknown. We here demonstrate that p53 stimulated by the DNA-damaging agent doxorubicin (DOX) induced the expression of TTP in cancer cells. TTP in turn increased let-7 levels through down-regulation of Lin28a. Correspondingly, cancer cells with mutations or inhibition of p53 failed to induce the expression of both TTP and let-7 on treatment with DOX. Down-regulation of TTP by small interfering RNAs attenuated the inhibitory effect of DOX on let-7 expression and cell growth. Therefore, TTP provides an important link between p53 activation induced by DNA damage and let-7 biogenesis. These novel findings provide a mechanism for the widespread decrease in TTP and let-7 and chemoresistance observed in human cancers.     

性早熟雌性Sprague-Dawle大鼠下丘脑Lin28a和Lin28b表达异常

目的：研究正常雌性Sprague-Dawle（SD）大鼠不同性发育阶段及雌激素诱导性早熟后下丘脑Lin28a和Lin28b的表达及意义。方法：1）于雌性SD大鼠出生后15日（postnatal day 15,PND15）、PND23、PND35荧光实时定量PCR分析下丘脑Lin28a和Lin28b mRNA的表达,同时以ELISA法检测血清黄体生成素（LH）和雌二醇（E2）水平变化;2）苯甲酸雌二醇（estradiol benzoate,EB）诱导的性早熟大鼠随机分为EB-1组和EB-2组,分别于阴道开口（vaginal opening,VO）时及PND56两个时间点处死,相应的发育阶段的大鼠用无菌芝麻油（sesame oil,OIL）作为对照分为OIL-1和OIL-2组;荧光实时定量PCR分析下丘脑Lin28a和Lin28b mRNA的表达,ELISA法检测LH和E2水平变化,并观察性早熟对大鼠阴道开口、体重、顶臀径、胫骨长等生长发育指标的影响。结果：1）PND15、PND23和PND35组下丘脑Lin28a和Lin28b mRNA表达、血清LH和E2水平无统计学差异（P〉0.05）;2）EB-1组下丘脑Lin28a和Lin28b mRNA表达高于OIL-1组（P〈0.05）,血清LH和E2水平与OIL-1组相比无统计学差异（P〉0.05）;EB-2组下丘脑Lin28a和Lin28b mRNA表达高于OIL-2组（P〈0.05）,血清LH和E2水平低于OIL-2组（P〈0.05）;3）与OIL-2组比较,EB-2组VO时间明显提前（P〈0.01）,体重、顶臀长、胫骨长差异无统计学差异（P〉0.05）。结论：外源性雌激素引起的性早熟可能导致下丘脑Lin28a和Lin28b表达异常。     

Systematic gene regulation involving miRNAs during neuronal differentiation of mouse P19 embryonic carcinoma cell

MicroRNAs (miRNAs) are small noncoding RNA and play an essential role in gene regulation. In this study, we investigated regulation of gene expression during neuronal differentiation of mouse P19 embryonic carcinoma cells and described a systematic pathway of gene regulation involving miRNAs. In the pathway, downregulation of Lin28 involved in blocking the let-7 maturation and upregulation of let-7 occur following induction of the differentiation, thereby triggering suppression of the downstream High Mobility Group A2 (Hmga2) gene expression via activation of gene silencing mediated by let-7. Our data further suggest that miR-9, as well as miR-125b, participate in the reduction of the Lin28 expression. The gene regulation involving miRNAs likely contributes to a rapid and programmed change in gene expression in neuronal differentiation of P19 cells.     

Myostatin Expression,Lymphocyte Population,and Potential Cytokine Production Correlate with Predisposition to High-Fat Diet Induced Obesity in Mice

A strong relationship exists between increased inflammatory cytokines and muscle insulin resistance in obesity. This study focused on identifying a relationship between metabolic propensity and myostatin expression in muscle and spleen cells in response to high-fat diet intake. Using a comparative approach, we analyzed the effects of high-fat diet intake on myostatin and follistatin expression, spleen cell composition, and potential cytokine expression in high-fat diet induced obesity (HFDIO) resistant (SWR/J) and susceptible (C57BL/6) mice models. Results demonstrated overall increased myostatin expression in muscle following high-fat diet intake in HFDIO-susceptible mice, while myostatin expression levels decreased initially in muscle from high-fat diet fed resistant mice. In HFDIO-resistant mice, myostatin expression decreased in spleen, while myostatin increased in spleen tissue from HFDIO-susceptible mice. Proinflammatory cytokine (IL-17, IL-1β, and IFNγ) potential increased in splenocytes from HFDIO-susceptible mice. In comparison, C57BL/6 mice fed a high-fat diet exhibited higher frequencies of CD4⁺/CD44^hi and CD8⁺/CD44^hi cells in the spleen compared to control fed mice. Together, these results suggest that susceptibility to high-fat diet induced obesity could be influenced by local myostatin activity in a tissue-specific manner and that splenocytes exhibit differential cytokine production in a strain-dependent manner. This study sets the stage for future investigations into the interactions between growth, inflammation, and metabolism.     

Short loop-targeting oligoribonucleotides antagonize Lin28 and enable pre-let-7 processing and suppression of cell growth in let-7-deficient cancer cells

MicroRNAs (miRNAs) originate from stem-loop-containing precursors (pre-miRNAs, pri-miRNAs) and mature by means of the Drosha and Dicer endonucleases and their associated factors. The let-7 miRNAs have prominent roles in developmental differentiation and in regulating cell proliferation. In cancer, the tumor suppressor function of let-7 is abrogated by overexpression of Lin28, one of several RNA-binding proteins that regulate let-7 biogenesis by interacting with conserved motifs in let-7 precursors close to the Dicer cleavage site. Using in vitro assays, we have identified a binding site for short modified oligoribonucleotides (‘looptomirs’) overlapping that of Lin28 in pre-let-7a-2. These looptomirs selectively antagonize the docking of Lin28, but still permit processing of pre-let-7a-2 by Dicer. Looptomirs restored synthesis of mature let-7 and inhibited growth and clonogenic potential in Lin28 overexpressing hepatocarcinoma cells, thereby demonstrating a promising new means to rescue defective miRNA biogenesis in Lin28-dependent cancers.     

Influence of ovarian hormones on development of ingestive responding to alterations in fatty acid oxidation in female rats

Adult male rats have been demonstrated to increase food intake in response to administration of drugs that interfere with oxidation of fatty acids (e.g. methyl palmoxirate and mercaptoacetate [MA]), effects that are larger in animals maintained on a high-fat diet. In contrast, while administration of MA has been reported to stimulate food intake in pre-pubertal female rats, food intake is not stimulated by MA in adult female rats. Instead, administration of MA to adult females results in changes in reproductive behavior and physiology. The present experiments were designed to examine the effects of administration of MA on food intake in adult female rats. The results demonstrated that, as previously reported, food intake was stimulated by MA in adult male rats on low-fat and high-fat diets, but food intake was not stimulated by MA in gonadally-intact adult female rats on either low-fat or high-fat diet. Further, MA did not stimulate food intake in female rats ovariectomized as adults. However, when females were ovariectomized prior to the onset of puberty (postnatal day 25–28), food intake was stimulated by administration of MA in adulthood. Finally, cyclic injections of 17-β-estradiol benzoate given to females ovariectomized prior to the onset of puberty abolished the stimulatory effects of MA on food intake in adult females. Taken together, the data suggest that exposure to estrogens during the time of puberty in female rats can persistently alter adult ingestive responding to signals related to changes in energy utilization.     

Effect of a postnatal high-fat diet exposure on puberty onset,estrous cycle regularity,and kisspeptin expression in female rats

Kisspeptin, encoded by Kiss1, plays a key role in pubertal maturation and reproduction as a positive upstream regulator of the hypothalamic-pituitary-gonadal (HPG) axis. To examine the role of high-fat diet (HFD) on puberty onset, estrous cycle regularity, and kisspeptin expression, female rats were exposed to HFD in distinct postnatal periods. Three groups of rats were exposed to HFD containing 60% energy from fat during the pre-weaning period (postnatal day (PND) 1–16, HFD PND 1–16), post-weaning period (HFD PND 21–34), or during both periods (HFD PND 1–34). Puberty onset, evaluated by vaginal opening, was monitored on days 30–34. Leptin, estradiol (E₂), Kiss1 mRNA levels, and number of kisspeptin-immunoreactive cells in the anteroventral periventricular nucleus (AVPV) and arcuate nucleus (ARC) were measured at day 34. Body weight increased only in rats exposed to HFD during post-weaning period, whereas the timing of vaginal opening was unaffected in all three groups. Leptin, Kiss1 mRNA levels, and number of kisspeptin-immunoreactive cells at day 34 were not affected by HFD. Additionally, the estrous cycle regularity was monitored in rats exposed to HFD for 40 days from weaning. Leptin, E₂, and Kiss1 mRNA levels in the AVPV and ARC were measured after the HFD exposure. Thirty-three percent of rats exposed to HFD exhibited irregular estrous cycles and a two-fold increase in leptin. By contrast, E₂ level and Kiss1 mRNA levels were not affected by the treatment. These data show that postnatal HFD exposure induced irregular estrous cycles, but had no effect on puberty onset or kisspeptin.     

Appearance of a nocturnal peak of leptin secretion in the pubertal rat

Whether leptin is involved in the timing of puberty remains highly controversial in the rat. Daytime leptin secretion shows little change during the transition into adulthood. Because leptin exhibits a diurnal variation in the adult, it is possible that the ontogeny of such a rhythm provides important information for the timing of puberty. To begin to evaluate this hypothesis, we determined the development of the diurnal leptin secretion in the rat. The young females were raised in a light-controlled environment (12L, 0700 h light on). A cannula was placed in the right atrium on the previous day, and blood samples were collected every 4 h on Days 21, 24, 28, 32, 36 (1 day after vaginal opening), and 48 (adult, diestrus of estrous cycle). In addition to vaginal opening, plasma prolactin levels were determined as an endocrine index of puberty. Changes in food intake were monitored because nocturnal food intake has been considered to be a synchronizer for the leptin rhythm. This pattern of food intake was clearly evident throughout the ages studied. By contrast, there was no leptin rhythm at 21 and 24 days of age. Beginning at 28 days, leptin secretion exhibited a significant nocturnal peak (2300 h); this nocturnal peak increased in amplitude at 32 and 36 days and was still apparent in the cycling adult at Day 48. Plasma prolactin did not exhibit a diurnal rhythm but it increased from Days 32 to 48. The present findings indicate that in the rat, both the appearance of the nocturnal leptin rhythm and the nocturnal increase in circulating leptin levels during development carry information for timing the onset of puberty.     

中枢性性早熟对儿童生长发育的影响及其危险因素分析

摘要 目的：分析中枢性性早熟对儿童生长发育的影响及其危险因素。方法：选择我院自2020年1月至2023年1月收治的105例中枢性性早熟患儿作为观察组,另选同期的105例发育正常儿童作为对照组,比较两组生长发育指标、血清胰岛素样生长因子-1（IGF-1）、胰岛素样生长因子结合蛋白3（IGF-BP3）表达水平,对入组者膳食模式、生活情况、家庭状况进行问卷调查,使用单因素分析和多因素Logistic回归分析。结果：观察组身高、体重、身体质量指数、骨龄均大于对照组（P＜0.05）;观察组血清IGF-1、IGF-BP3表达水平均高于对照组（P＜0.05）;经单因素分析,午睡习惯、运动时间、亮灯睡觉、课业负担、经常使用塑料制品、成人洗漱护肤品、观看情感类电视、母亲学历、职业、初潮年龄,父母关系、陪伴、平衡膳食模式、高热量高脂膳食模式均与中枢性性早熟有关（P＜0.05）;经多因素Logistic回归分析,平衡膳食模式、有午睡习惯、运动时间长均是中枢性性早熟的保护因素（P＜0.05）,高热量高脂膳食模式、母亲初潮年龄小、父母关系不和睦、父母陪伴少均是中枢性性早熟的危险因素（P＜0.05）。结论：中枢性性早熟可影响儿童的生长发育进度,与高热量高脂膳食模式、母亲初潮年龄、父母关系和陪伴密切相关,应改善家庭关系,帮助儿童养成平衡膳食、午睡和运动的良好习惯,有益于儿童正常的生长发育。     

过表达Lin28a/Lin28b对let-7家族活性的影响

研究在HeLaS3细胞中过表达Lin28a/Lin28b对let-7家族miRNA表达水平和活性的影响。首先,构建Lin28a和Lin28b的表达载体pAAV2neo-Lin28a和pAAV2neo-Lin28b,分别转染HeLaS3细胞并筛选获得Lin28a和Lin28b的稳定表达细胞株HeLaS3/pAAV2neo-Lin28a和HeLaS3/pAAV2neo-Lin28b。然后,以pAAV2neo-Gluc-(Fluc)为基本骨架,构建并获得检测let-7家族miRNA活性的8种质粒型载体,并包装为相应的重组腺相关病毒(Recombinant adeno-associated virus,rAAV),作为检测miRNA靶序列介导的转录后抑制活性的传感器,命名为Asensor。在此基础上,以HeLaS3细胞为对照,用Western blot检测HeLaS3/pAAV2neo-Lin28a和HeLaS3/pAAV2neo-Lin28b细胞中Lin28a和Lin28b表达水平,用QRT-PCR测定let-7家族各成员表达水平,用Asensor检测let-7家族各成员活性。Western blot结果显示,HeLaS3/pAAV2neo-Lin28a和HeLaS3/pAAV2neo-Lin28b均能有效地表达Lin28a和Lin28b蛋白;QRT-PCR检测结果显示,相比于HeLaS3细胞,HeLaS3/pAAV2neo-Lin28a细胞中let-7家族各成员表达水平都下降(除let-7e外),但不同成员下降幅度存在差异;Asensor检测结果显示,let-7家族所有成员活性水平都下降,但不同成员下降幅度也存在差异,且同一成员活性水平与表达水平及其下降趋势也不一致。相比于HeLaS3细胞,HeLaS3/pAAV2neo-Lin28b细胞中let-7家族成员的表达和活性水平均明显下降,但表达水平的下降幅度比HeLaS3/pAAV2neo-Lin28a细胞大,而活性的下降幅度却与之相近。本研究建立了一种检测和比较miRNA靶序列介导的转录后抑制活性的方法,首次研究了过表达Lin28a和Lin28b对细胞中的let-7家族miRNA活性影响,并发现Lin28a和Lin28b对let-7家族miRNA表达水平的影响和对其相应活性的影响不一致性,说明在检测miRNA表达水平的同时检测miRNA活性能更全面揭示miRNA的调节功能,为进一步研究let-7家族的调控机制奠定了基础。     

Endogenous c-Myc is essential for p53-induced apoptosis in response to DNA damage in vivo

Recent studies have suggested that C-MYC may be an excellent therapeutic cancer target and a number of new agents targeting C-MYC are in preclinical development. Given most therapeutic regimes would combine C-MYC inhibition with genotoxic damage, it is important to assess the importance of C-MYC function for DNA damage signalling in vivo. In this study, we have conditionally deleted the c-Myc gene in the adult murine intestine and investigated the apoptotic response of intestinal enterocytes to DNA damage. Remarkably, c-Myc deletion completely abrogated the immediate wave of apoptosis following both ionizing irradiation and cisplatin treatment, recapitulating the phenotype of p53 deficiency in the intestine. Consistent with this, c-Myc-deficient intestinal enterocytes did not upregulate p53. Mechanistically, this was linked to an upregulation of the E3 Ubiquitin ligase Mdm2, which targets p53 for degradation in c-Myc-deficient intestinal enterocytes. Further, low level overexpression of c-Myc, which does not impact on basal levels of apoptosis, elicited sustained apoptosis in response to DNA damage, suggesting c-Myc activity acts as a crucial cell survival rheostat following DNA damage. We also identify the importance of MYC during DNA damage-induced apoptosis in several other tissues, including the thymus and spleen, using systemic deletion of c-Myc throughout the adult mouse. Together, we have elucidated for the first time in vivo an essential role for endogenous c-Myc in signalling DNA damage-induced apoptosis through the control of the p53 tumour suppressor protein.     

Gab2 deficiency suppresses high-fat diet-induced obesity by reducing adipose tissue inflammation and increasing brown adipose function in mice

Obesity is caused by a long-term imbalance between energy intake and consumption and is regulated by multiple signals. This study investigated the effect of signaling scaffolding protein Gab2 on obesity and its relevant regulation mechanism. Gab2 knockout (KO) and wild-type (WT) mice were fed with a standard diet (SD) or high-fat diet (HFD) for 12 weeks. The results showed that the a high-fat diet-induced Gab2 expression in adipose tissues, but deletion of Gab2 attenuated weight gain and improved glucose tolerance in mice fed with a high-fat diet. White adipose tissue and systemic inflammations were reduced in HFD-fed Gab2 deficiency mice. Gab2 deficiency increased the expression of Ucp1 and other thermogenic genes in brown adipose tissue. Furthermore, the regulation of Gab2 on the mature differentiation and function of adipocytes was investigated in vitro using primary or immortalized brown preadipocytes. The expression of brown fat-selective genes was found to be elevated in differentiated adipocytes without Gab2. The mechanism of Gab2 regulating Ucp1 expression in brown adipocytes involved with its downstream PI3K (p85)-Akt-FoxO1 signaling pathway. Our research suggests that deletion of Gab2 suppresses diet-induced obesity by multiple pathways and Gab2 may be a novel therapeutic target for the treatment of obesity and associated complications.Subject terms: Fat metabolism, Obesity     

The Lin28/let-7 axis regulates glucose metabolism

The let-7 tumor suppressor microRNAs are known for their regulation of oncogenes, while the RNA-binding proteins Lin28a/b promote malignancy by inhibiting let-7 biogenesis. We have uncovered unexpected roles for the Lin28/let-7 pathway in regulating metabolism. When overexpressed in mice, both Lin28a and LIN28B promote an insulin-sensitized state that resists high-fat-diet induced diabetes. Conversely, muscle-specific loss of Lin28a or overexpression of let-7 results in insulin resistance and impaired glucose tolerance. These phenomena occur, in part, through the let-7-mediated repression of multiple components of the insulin-PI3K-mTOR pathway, including IGF1R, INSR, and IRS2. In addition, the mTOR inhibitor, rapamycin, abrogates Lin28a-mediated insulin sensitivity and enhanced glucose uptake. Moreover, let-7 targets are enriched for genes containing SNPs associated with type 2 diabetes and control of fasting glucose in human genome-wide association studies. These data establish the Lin28/let-7 pathway as a central regulator of mammalian glucose metabolism.