214 Different pluripotency maintenance supplements affect the reprogramming process and pluripotency state of bovine-induced pluripotent stem cells

Abstract

After the emergence of induced cell reprogramming, achieved through the addition of Yamanaka transcription factors (Oct4, Sox2, Klf4, and cMyc; OSKM) to somatic cells, the number of studies regarding induction and maintenance of pluripotency has increased greatly. The success of bovine iPSCs (biPSCs) was first described by Summer et al. (2011 J. Anim. Sci. 89, 2708-2716; https://doi.org/10.2527/jas.2010-3666); however, investigations on the pluripotent state of biPSCs are still needed because different protocols and characterisation profiles have since been used. The aim of this study was to produce biPSC lines supplemented with different pluripotency maintenance agents to improve self-renewal and pluripotency maintenance. For that, bovine fetal (50 days) fibroblasts (3 × 10⁴) were transduced with lentivirus harbouring mouse OSKM transcription factors. The cells were further cultured in reprogramming medium (Dulbecco's modified Eagle's medium/F12 KO and 20% KSR (knockout serum replacement)) supplemented with basic fibroblast growth factor (bFGF), leukemia inhibitory factor (LIF), bFGF+2i or LIF+2i (where 2i inhibitors are PD0325901 and CHIR99021). The capacity for cell reprogramming was analysed by colony formation and maintenance after manually and enzymatic passaging and alkaline phosphatase (AP) activity detection; additionally, pluripotency state was assessed by reverse transcription (RT)-PCR (pluripotency biomarkers: OCT4, NANOG, and SOX2; naïve state: STELLA, LIFr, and ESRRb; primed state: OTX2 and FGF5; and mouse (m)OSKM and in vitro differentiation assay (embryoid body formation). Statistical analysis was performed using the JMP software (SAS Institute Inc.). All treatments were successful at generating colonies after 28 days of mOSKM transduction, with 32 colonies in bFGF (0.53% efficiency), 21 colonies in bFGF+2i (0.35% efficiency), 5 colonies in LIF (0.08% efficiency), and 3 colonies in LIF+2i (0.05% efficiency) treatments/groups. As an initial pluripotency test, all colonies were positive for AP activity at passage 3. The colonies were cultured for at least 25 passages (±200 days) except for those from the LIF+2i treatment, which were not able to remain viable after 15 passages. Gene expression analysis of the pluripotency (naïve and primed) biomarkers in biPSCs by RT-PCR revealed that colonies from the bFGF treatment were upregulated in NANOG, OCT4, (pluripotency biomarkers), and STELLA (naïve biomarker) (P < 0.05) compared with bFGF+2i and LIF groups. There were no differences in expression of SOX2 (pluripotency biomarker gene) and naïve/primed biomarkers (OXT2, LIFr, and ESRRb) (P > 0.05). Additionally, the relative abundance of mOSKM was not different between groups (P > 0.05). For further pluripotency analysis, biPS colonies were tested for the in vitro differentiation assay, and all colonies tested were able to form embryoid bodies. In conclusion, bovine fetal fibroblasts were successfully reprogrammed when using OSKM in all medium tested; however, LIF+2i treatment did not grow beyond 25 passages. Further tests should be performed to determine the pluripotency status of these biPSCs.

We acknowledge FAPESP for funding (grant nos. 2012/50533-2, 2015/26816-5, and 2016/16841-2).