Pigs (Sus scrofa) are widely acknowledged as an important large mammalian animal model due to their similarity to human physiology, genetics, and immunology. Leveraging the full potential of this model presents significant opportunities for major advancements in the fields of comparative biology, disease modeling, and regenerative medicine. Thus, the derivation of pluripotent stem cells from this species can offer new tools for disease modeling and serve as a stepping stone to test future autologous or allogeneic cell-based therapies. Over the past few decades, great progress has been made in establishing porcine pluripotent stem cells (pPSCs), including embryonic stem cells (pESCs) derived from pre- and peri-implantation embryos, and porcine induced pluripotent stem cells (piPSCs) using a variety of cellular reprogramming strategies. However, the stabilization of pPSCs was not as straightforward as directly applying the culture conditions developed and optimized for murine or primate PSCs. Therefore, it has historically been challenging to establish stable pPSC lines that could pass stringent pluripotency tests. Here, we review recent advances in the establishment of stable porcine PSCs. We focus on the evolving derivation methods that eventually led to the establishment of pESCs and transgene-free piPSCs, as well as current challenges and opportunities in this rapidly advancing field.

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A renewable source of porcine macrophages derived from pluripotent stem cells (PSCs) would be a valuable alternative to primary porcine alveolar macrophages (PAMs) in the research of host-pathogen interaction mechanisms. We developed an efficient and rapid protocol, within 11 days, to derive macrophages from porcine PSCs (pPSCs). The pPSC-derived macrophages (pPSCdMs) exhibited molecular and functional characteristics of primary macrophages. The pPSCdMs showed macrophage-specific surface protein expression and macrophage-specific transcription factors, similar to PAMs. The pPSCdMs also exhibited the functional characteristics of macrophages, such as endocytosis, phagocytosis, porcine respiratory and reproductive syndrome virus infection and the response to lipopolysaccharide stimulation. Furthermore, we performed transcriptome sequencing of the whole differentiation process to track the fate transitions of porcine PSCs involved in the signaling pathway. The activation of transforming growth factor beta signaling was required for the formation of mesoderm and the inhibition of the transforming growth factor beta signaling pathway at the hematopoietic endothelium stage could enhance the fate transformation of hematopoiesis. In summary, we developed an efficient and rapid protocol to generate pPSCdMs that showed aspects of functional maturity comparable with PAMs. pPSCdMs could provide a broad prospect for the platforms of host-pathogen interaction mechanisms.

The establishment of porcine epiblast stem cells (pEpiSCs) and induced pluripotent stem cells (piPSCs) derived from diametrical derivations is of great importance in developing biomedical models. However, pEpiSCs and piPSCs have been technically much harder to culture than mouse embryonic stem cells, showing problematic properties such as spontaneous differentiation and apoptosis after cryopreservation. Therefore, we demonstrated that Y-27632 as a Rho-associated coiled-coil containing kinase inhibitor could prevent dissociated pEpiSCs and piPSCs from undesirable differentiation and apoptosis in cryopreservation protocols. pEpiSC 2, 8 lines, Sendai virus-induced pluripotent stem cells (Sev-iPSCs), and lentivirus-induced pluripotent stem cells were cultured with 10 μM Y-27632 before collecting dissociated cells retrieved from colonies using various enzymes. Dissociated single cells were transferred into freezing mediums (open pulled straw vitrification, STEM-CELLBANKER® (SCB), 10% dimethylsulfoxide in serum) for cryopreservation. The rates of viability and colony formation obtained from dissociated porcine stem cells after freezing/thawing were examined in the presence of Y-27632. The characteristics of pluripotency and in vitro differentiation were also examined in these stem cells treated with Y-27632 after cryopreservation. As a result, the viability and efficiency of colony formation of dissociated pEpiSCs (2, 8 lines) and Sev-iPSCs treated with 10 μM Y-27632 using the SCB cryopreservation protocol were significantly increased when compared with those of nontreated Y-27632 (p < 0.05). Pluripotency genes (OCT-3/4, NANOG, and SOX2) were positively expressed in Y-27632-treated porcine pluripotent stem cells. Also, in vitro differentiation of these stem cells was successfully induced in the presence of 10 μM Y-27632. These results indicated that treatment of Y-27632 for single-cell dissociation and the SCB cryopreservation protocol could facilitate handling porcine pluripotent stem cells and provide the widespread use of these stem cells.

In post-transcriptional mRNA modification, m⁶A has been observed in a wide range of eukaryotes. METTL3, as a component of methyltransferase complex for m⁶A modification, regulates mouse naïve pluripotency and influences mRNA stability, especially affecting the expression level of the key pluripotent transcription factors. To reveal the expression pattern of the porcine METTL3 gene, we analyzed METTL3 expression level in different porcine tissues, somatic cells, and induced pluripotent stem cells (piPSCs) by RT-PCR. To identify the function of METTL3 for regulation of the expression of porcine pluripotent genes, we cloned a 1 859-bp coding sequence of METTL3 and synthesized a shRNA against METTL3. When knocking down METTL3 expression in piPSCs, the cell type of piPSCs became naïve-like morphology, alkaline phosphatase activity was increased, and expression level of pluripotent genes NANOG, OCT4 and LIN28A was significantly elevated. In addition, piPSCs cultured in medium containing 10 mmol/L cycloleucine for 48 h exhibited the similar result as that knocked down METTL3. These findings set the stage for optimization of piPS culture condition and further study on the roles of m6A in piPSCs.
m⁶A 是真核生物mRNA 中重要的转录后修饰，METTL3 作为m⁶A 甲基转移酶复合物中的重要组分，在细胞重编程、胚胎干细胞和诱导多能干细胞的干性维持、胚胎发育等过程中发挥重要作用。为了揭示猪METTL3的表达模式，对不同物种METTL3 蛋白序列进行了比对，用RT-PCR 检测了METTL3 基因在不同猪组织和细胞中的表达情况，并确认了METTL3 的细胞核定位。为了研究METTL3 对猪干细胞多能基因表达的调控作用，克隆了猪METTL3 编码区序列，设计了METTL3 干扰片段，并构建了相应的过表达和沉默载体。发现干扰METTL3 的表达后，猪多能干细胞出现类似naïve 状态的细胞克隆，NANOG、OCT4 和LIN28A 表达水平显著升高。在猪多能干细胞培养基中添加m⁶A 甲基化抑制剂环亮氨酸培养细胞48 h 后，试验结果与干扰METTL3 表达的结果一致。本研究为优化猪多能干细胞的培养体系提供了新的方向和依据。.

Laminin (LN) proteins are important components of extracellular matrix. These proteins regulate cell proliferation, differentiation, migration, and tissue repair. The LN family has 12 genes that encode 5 α, 4 β, and 3 γ proteins. LamininA5 (LAMA5) as an important gene can support pluripotent cell growth and have been widely studied. However, porcine LAMA5 is absent in all tested porcine genomic databases so far. In this study, we confirmed for the first time the existence of porcine LAMA5 through bioinformatics analysis, and verified this result by cDNA cloning and sequencing. To reveal the expression pattern of Laminin gene family, we detected the expression of Laminin genes in porcine tissues, somatic cells, and porcine induced pluripotent stem cells (piPSCs). The results showed that an alternative splicing variant of Laminin B1 (LAMB1-a) was found exclusively in all tested piPSCs. The expression of this alternative splicing variant is positively correlated with the pluripotent state of piPSCs. The above findings provide evidences and foundations for the father use of LN as extracellular matrix to facilitate the derivation and culture of porcine pluripotent stem cells.
层粘连蛋白 (Laminin) 是细胞外基质的重要成分，对细胞生长、分化、运动、组织修复和再生等发挥重要调节作用。Laminin包括有A1-5、B1-4和C1-3共12个编码基因，以不同的表达模式发挥功能。其中Laminin A5作为可以支持多能细胞生长的重要基因，得到广泛研究。但是，在所有猪相关数据库中，均未能查到Laminin A5的信息。文中通过生物信息学分析，首次确认了猪Laminin A5的存在，并进行了克隆和测序验证。为揭示Laminin基因家族在猪诱导多能干细胞 (iPSCs) 中的表达特性，检测了Laminin在猪各组织、体细胞和iPS细胞中的不同表达模式。发现Laminin B1基因在猪多能干细胞中存在特异性可变剪接体 (LAMB1-a)，且该可变剪切体的表达量与猪多能干细胞的重编程程度呈正相关。为进一步揭示和利用Laminin作为细胞外基质，用于猪多能干细胞的获取和培养优化奠定了基础。.