Spermatogenesis, an elaborate and male-specific process in adult testes by which a number of spermatozoa are produced constantly for male fertility, relies on spermatogonial stem cells (SSCs). As a sub-population of undifferentiated spermatogonia, SSCs are capable of both self-renewal (to maintain sufficient quantities) and differentiation into mature spermatozoa. SSCs are able to convert to pluripotent stem cells during in vitro culture, thus they could function as substitutes for human embryonic stem cells without ethical issues. In addition, this process does not require exogenous transcription factors necessary to produce induced-pluripotent stem cells from somatic cells. Moreover, combining genetic engineering with germ cell transplantation would greatly facilitate the generation of transgenic animals. Since germ cell transplantation into infertile recipient testes was first established in 1994, in vivo and in vitro study and manipulation of SSCs in rodent testes have been progressing at a staggering rate. By contrast, their counterparts in domestic animals, despite the failure to reach a comparable level, still burgeoned and showed striking advances. This review outlines the recent progressions of characterization, isolation, in vitro propagation, and transplantation of spermatogonia/SSCs from domestic animals, thereby shedding light on future exploration of these cells with high value, as well as contributing to the development of reproductive technology for large animals.Reproduction (2014) 147 R65-R74
Circular RNAs (circRNAs) are a newly discovered class of endogenous non-coding RNAs. Owing to the development of high-throughput sequencing, researchers have identified thousands of circRNAs. Emerging evidence suggests that circRNAs are involved in various tumor cell processes, including proliferation, apoptosis, invasion and migration. Because of their high stability and abundance, tissue-specific expression, and easy detection, circRNAs are considered ideal biomarkers for cancer diagnosis and prognosis. An increasing number of studies have recently demonstrated that circRNAs are closely associated with colorectal cancer (CRC). CRC is the third most common cancer and the second leading cause of cancer-related death globally. Thus, understanding the molecular mechanisms involved in the development and progression of CRC is vital. In this review, we summarize the current literature regarding human circRNAs related to CRC and present an overview of the potential clinical implications of circRNAs with respect to CRC.
Pancreatic cancer (PC) is a lethal cancer in the digestive system. microRNAs (miRNAs) have been demonstrated to participate in PC progression. In this context, we thus aimed to explore the mechanism of miR-382 in epithelial mesenchymal transition (EMT) and lymph node metastasis in PC in relation to Anxa3 and the PI3K/Akt signaling pathway. Gene expression datasets GSE16515, GSE71989 and GSE32676 were screened out with the findings showed the significance of miR-382 and Anxa3 in PC. A total of 115 PC patients was selected for determination of miR-382 and Anxa3 expression with lowly expressed miR-382 and highly expressed Anxa3 found via RT-qPCR and western blot analysis. Additionally, negative correlation was found between miR-382 and Anxa3 in PC. Dual-luciferase reporter gene assay and in situ hybridization results confirmed that miR-382 negatively regulated Anxa3. miR-382 targeted Anxa3 and suppressed PC progression by blocking the PI3K/Akt signaling pathway. After a series of gain- and loss-of function approaches, up-regulation of miR-382 or silencing of Anxa3 inhibited the EMT and lymph node metastasis as evidenced by increased level of E-cadherin and decreased level of N-cadherin, Vimentin, VEGFR-3, VEGF-C and VEGF-D. Overexpression of miR-382 or downregulation of Anxa3 was shown to inhibit colony formation, migration and invasion abilities of PC cells. Further, tumor xenograft in nude mice in vivo also confirmed the inhibitory role of miR-382 and silenced Anxa3 in lymph node metastasis in PC. Thus, this study provides promising therapeutic targets for PC treatment.
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