ROCK inhibitor Y-27632 maintains the propagation and characteristics of hair follicle stem cells.

Hair follicle stem cells (HFSCs) are an important source for skin tissue engineering studies and clinical applications. Here, we describe a differential enrichment approach to derive HFSCs from hair follicles of vibrissae and ear skin using the Rho-associated protein kinase (ROCK) inhibitor Y-27632. In the presence of Y-27632, primary cultured hair follicle cells grew in clustered colonies surrounded by keratinocyte-like cells and simultaneously expressed three HFSC markers: CD34, K15, and ITGB1. HFSCs cultured in medium containing Y-27632 were presented at a stable ratio of 30.7%, 34.1%, and 32.9% after passages 5, 10, and 15, respectively. By contrast, in medium containing epidermal growth factor, clustered HFSC colonies disappeared after 6 passages and lacked HFSC marker expression. After withdrawal of Y-27632 from the medium, HFSCs rapidly differentiated into keratinocyte-like cells. Furthermore, HFSCs derived with Y-27632 formed spherical clusters in collagen matrix in vitro, differentiated into keratinocytes and adipose cells under in vitro induction conditions, and cooperated with fetal dermal cells to regenerate hair follicles in vivo 6 weeks after their intracutaneous injection into immune-deficient mice. These findings suggest that Y-27632 maintains the self-renewal and stemness characteristics of HFSCs during primary skin tissue culture followed by enrichment passaging and that HFSCs derived with Y-27632 possess the differentiation potentials important for tissue engineering and other clinical applications.

Synergistic effect of cysteamine, leukemia inhibitory factor, and Y27632 on goat oocyte maturation and embryo development in vitro.

Goat oocyte in vitro maturation is associated with a variable efficiency of embryo development after in vitro fertilization (IVF). Here, we developed a novel maturation procedure to evaluate the cellular effect of cysteamine (Cys), leukemia inhibitory factor (LIF) and Y27632 on oocyte in vitro maturation in native Chinese Yangtze river white goats. Oocytes were collected by slicing ovary tissues and matured for 24 h in vitro prior to IVF. Presumptive fertilized oocytes were cultured in embryo media for 8 days. Maturation rates were similar in gonadotropin basal maturation medium and the same medium supplemented with Cys, LIF, or Y27362 (41.0-48.0%; P > 0.05). However, when two substances were co-supplemented into the medium, the maturation rate was higher in the Cys+LIF group than in the LIF+Y27362 and Cys+Y27362 groups (60.0% vs. 43.1% and 25.8%, respectively; P < 0.05). Co-supplementation of all three substances into the medium achieved the highest maturation rate (67.5%; P < 0.05). Compared with oocytes in gonadotropin basal maturation medium, those in medium supplemented with Cys showed increased fertilization (56.1% vs. 72.1%), cleavage (36.7% vs. 44.8%), and blastocyst development (1.7% vs. 4.2%), respectively (P < 0.05). Cys+LIF supplementation further improved fertilization (81.6%), cleavage (54.9%), and blastocyst development (6%; P < 0.05). Furthermore, combined supplementation of all three substances resulted in the best fertilization (84.9%), cleavage (70.7%), and blastocyst development (10.3%; P < 0.05). Resultant IVF blastocysts possessed an average cell number as high as 276 ± 45 per embryo. This is the first study to report increased efficiency of caprine oocyte maturation by combined Cys, LIF, and Y27632 supplementation into basal maturation medium, leading to improved fertilization and embryo development in vitro post-IVF.

Efficient generation of FVII gene knockout mice using CRISPR/Cas9 nuclease and truncated guided RNAs.

We investigated the effects of 5'-end truncated CRISPR RNA-guided Cas9 nuclease (tru-RGN, 17/18 nucleotides) on genome editing capability in NIH/3T3 cells, and its efficiencies on generating Factor VII (FVII) gene-knockout (KO) mice. In cultured cells, RGNs on-target editing activity had been varied when gRNAs was truncated, higher at Site Two (tF7-2 vs. F7-2, 49.5 vs. 30.1%) while lower in other two sites (Site One, tF7-1 vs.F7-1, 12.1 vs. 23.6%; Site Three, tF7-3 vs.F7-3, 7.7 vs 10.9%) (P < 0.05). Out of 15 predicated off-target sites, tru-RGNs showed significantly decreased frequencies at 5 sites. By microinjecting tru-RGN RNAs into zygotes, FVII KO mice were generated with higher efficiency at Site Two (80.1 vs. 35.8%) and Site One (55.0 vs 3.7%) (P < 0.05), but not at Site three (39.4 vs 27.8%) (P > 0.05) when compared with standard RGN controls. Knockout FVII mice demonstrated a delayed prothrombin time and decreased plasma FVII expression. Our study first demonstrates that truncated gRNAs to 18 complementary nucleotides and Cas9 nucleases, can effectively generate FVII gene KO mice with a significantly higher efficiency in a site-dependent manner. In addition, the off-target frequency was much lower in KO mice than in cell lines via RGN expression vector-mediated genome editing.