Tien Cheng Chang

Single-cell analysis of circulating tumor cells identifies cumulative expression patterns of EMT-related genes in metastatic prostate cancer

Prostate tumors shed circulating tumor cells (CTCs) into the blood stream. Increased evidence shows that CTCs are often present in metastatic prostate cancer and can be alternative sources for disease profiling and prognostication. Here we postulate that CTCs expressing genes related to epithelial–mesenchymal transition (EMT) are strong predictors of metastatic prostate cancer.

Trophoblast Stem Cells: Models for Investigating Trophectoderm Differentiation and Placental Development

The placenta is an ephemeral organ containing diverse populations of trophoblasts that are all derived from the embryonic trophectoderm but have morphological, functional, and molecular diversity within and across species. In hemochorial placentation, these cells play especially important roles, interfacing with and modifying the cells of the maternal decidua. Within the rapidly growing placenta, it has been shown that there are trophoblast stem cells well characterized in the mouse and postulated but not well understood in primates. This review will discuss the characteristics of candidates for human and nonhuman primate trophoblast stem cells, present the diverse methods of their generation, and propose future prospects for experimental systems in which they can shed light on developmental and pathophysiological processes in human pregnancy.

Derivation and characterization of novel nonhuman primate embryonic stem cell lines from in vitro-fertilized baboon preimplantation embryos

The development of nonhuman primate (NHP) embryonic stem cell (ESC) models holds great promise for cell-mediated treatment of debilitating diseases and to address numerous unanswered questions regarding the therapeutic efficacy of ESCs while supplanting ethical considerations involved with human studies. Here we report successful establishment and characterization of 3 novel baboon (Papio cynocephalus) ESC lines from the inner cell mass of intracytoplasmic sperm injection-derived blastocysts. Embryos were cultured in an improved baboon embryo in vitro culture protocol. The inner cell mass of blastocyst was laser-dissected and plated on mouse embryonic fibroblast feeder cell monolayer in the NHP ESC culture medium. Three cell lines with characteristic ESC morphology have been cultured through an extended period (>14 months), with 2 male cell lines (UT-1 and -2) and 1 female cell line (UT-3) displaying normal baboon karyotypes. Reverse transcription-polymerase chain reaction analysis confirmed that all 3 lines express primate ESC pluripotency markers, including OCT-4, NANOG, SOX-2, TERT, TDGF, LEFTYA, and REX-1. All 3 lines demonstrated positive immunocytochemical staining for OCT-4, stage-specific embryonic antigen-3, stage-specific embryonic antigen-4, TRA-1-60, and TRA-1-81. Baboon ESCs injected into NOD/SCID mice formed teratomas with all 3 germ layers. In addition, embryoid body-like spherical structures were derived and initial outgrowth was observed when embedded into extracellular matrix Matrigel. The ESC lines established in this NHP model have the potential to extend our knowledge in the fields of developmental biology, regenerative medicine, and future applications, including preclinical safety assessment of in vivo stem cell therapy.

Ovarian stimulation, in vitro fertilization, and effects of culture conditions on baboon preimplantation embryo development

OBJECTIVE To evaluate the effects of ovarian stimulation and intracytoplasmic sperm injection (ICSI)-induced fertilization and efficacy of various culture systems on in vitro development of baboon embryos. DESIGN In vitro study, animal model. SETTING Research laboratory. ANIMAL(S) Baboons in laboratory animal research facility. INTERVENTION(S) Baboons received FSH (75 IU daily) for 7 to 8 days and FSH/LH (75/75 IU daily) for 3 days, followed by hCG (2,000 IU). Oocytes were retrieved laparoscopically 36 hours after hCG. Intracytoplasmic sperm injection was performed on metaphase II (MII) oocytes. Fertilized embryos were placed into different culture conditions and feeder cell coculture. Embryo development was observed through the most advanced stages, including blastocyst formation. MAIN OUTCOME MEASURE(S) Oocytes retrieved, fertilization rates, multicell embryo rates, and blastocyst rates. RESULT(S) Baboon oocytes (n = 1,924, from 49 cycles) were retrieved. Significant heterogeneity was seen in ovarian response to exogenous gonadotropins and subsequent oocyte maturation. The percentage of MII oocytes showed no significant difference among individual female baboons and stimulation cycles. Nearly two thirds of MII oocytes were successfully fertilized with ICSI. Blastocyst rates varied significantly among embryos in different treatments. Coculture with feeder cells in P1/Blast, Quinns Advantage, and Sydney IVF media generated better blastocyst rates. CONCLUSION(S) We tested multiple media and feeder cell combinations to optimize culture conditions in baboon embryo culture and obtained a high blastocyst rate similar to those reported for rhesus monkey embryos cultured in vitro, but still lower than with assisted reproductive technologies in women.