Expansion of functional human salivary acinar cell spheroids with reversible thermo-ionically crosslinked 3D hydrogels

Jose G Munguia-Lopez, Sangeeth Pillai, Yuli Zhang, Amatzia Gantz, Dimitria B. Camasao, Showan N. Nazhat, Joseph M. Kinsella, Simon D. Tran
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Abstract

Xerostomia (dry mouth) is frequently experienced by patients treated with radiotherapy for head and neck cancers or with Sjögren's syndrome, with no permanent cure existing for this debilitating condition. To this end, in vitro platforms are needed to test therapies directed at salivary (fluid-secreting) cells. However, since these are highly differentiated secretory cells, the maintenance of their differentiated state while expanding in numbers is challenging. In this study, the efficiency of three reversible thermo-ionically crosslinked gels: 1) alginate-gelatin (AG), 2) collagen-containing AG (AGC), and 3) hyaluronic acid-containing AG (AGHA), to recapitulate a native-like environment for human salivary gland (SG) cell expansion and 3D spheroid formation was compared. Although all gels were of mechanical properties comparable to human SG tissue (~11 kPa) and promoted the formation of 3D spheroids, AGHA gels produced larger (>100 cells/spheroid), viable (>93%), proliferative, and well-organized 3D SG spheroids while spatially and temporally maintaining the high expression of key SG proteins (aquaporin-5, NKCC1, ZO-1, α-amylase) for 14 days in culture. Moreover, the spheroids responded to agonist-induced stimulation by increasing α-amylase secretory granules. Here, we propose alternative low-cost, reproducible, and reversible AG-based 3D hydrogels that allow the facile and rapid retrieval of intact, highly viable 3D-SG spheroids for downstream applications.
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用可逆热离子交联三维水凝胶扩增功能性人唾液腺尖腺细胞球体
接受头颈部癌症放疗或患有斯约格伦综合征的患者经常会出现口干症(口腔干燥),但目前还没有根治这种使人衰弱的病症的方法。为此,需要体外平台来测试针对唾液(分泌液)细胞的疗法。然而,由于唾液分泌细胞是高度分化的分泌细胞,因此在数量增加的同时保持其分化状态具有挑战性。本研究比较了三种可逆热离子交联凝胶(1)藻酸盐-明胶(AG)、2)含胶原蛋白的 AG(AGC)和 3)含透明质酸的 AG(AGHA)在再现人类唾液腺(SG)细胞扩增和三维球形体形成的类原生环境方面的效率。虽然所有凝胶的机械性能都与人类唾液腺组织相当(约 11 kPa),并能促进三维球体的形成,但 AGHA 凝胶能产生更大(100 个细胞/球体)、存活(93%)、增殖和组织良好的三维唾液腺球体,同时在空间和时间上保持关键唾液腺蛋白(aquaporin-5、NKCC1、ZO-1、α-淀粉酶)的高表达,培养时间长达 14 天。此外,球体还能通过增加α-淀粉酶分泌颗粒对激动剂诱导的刺激做出反应。在此,我们提出了基于 AG 的低成本、可重复和可逆的三维水凝胶替代品,可方便快捷地回收完整、高活性的三维-SG 球体,用于下游应用。
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