Expansion of Functional Human Salivary Acinar Cell Spheroids with Reversible Thermo-Ionically Crosslinked 3D Hydrogels

Munguia-Lopez JG, Pillai S, et al.

International Journal of Oral Science

McGill University, Rheolution Inc.

RESEARCH SUMMARY

This study reports a new class of reversible thermo-ionically crosslinked composite hydrogels—alginate–gelatin (AG), AG–collagen (AGC), and AG–hyaluronic acid (AGHA)—designed to support the expansion and differentiation of human salivary acinar (NS-SV-AC) and primary salivary functional unit (SFU) spheroids. Mechanical properties (≈11 kPa) mimicked native salivary gland tissue. Among the tested hydrogels, AGHA yielded large (>100-cell) spheroids with >93% viability, sustained metabolic activity, and robust expression of acinar markers (AQP5, ZO-1, NKCC1, α-amylase). Upon β-adrenergic stimulation with isoprenaline, AGHA-cultured spheroids showed increased α-amylase granule formation and secretion activity, confirming preserved acinar functionality. This low-cost, reversible hydrogel system allows recovery of intact spheroids via ion chelation at 37 °C and demonstrates high translational potential for regenerative salivary gland bioengineering.

Hydrogel mechanical testing was performed using a **CellScale MicroSquisher for compression modulus quantification of the AG, AGC, and AGHA formulations. Cylindrical gel samples were tested at 30 µm s⁻¹, generating stress–strain data across 0.05–0.10 strain. The MicroSquisher confirmed physiologically relevant elastic moduli (≈10–12 kPa) comparable to native salivary gland stiffness. This validated the biomimetic mechanical environment critical for promoting spheroid organization, viability, and acinar differentiation.

AUTHORS

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

PUBLICATION DETAILS

JOURNAL

International Journal of Oral Science

YEAR

2025

INSTITUTIONS

McGill University, Rheolution Inc.

COUNTRIES

Canada

INSTRUMENT USED

MicroSquisher

TESTING METHODS

Compression TestingHydrated and Temperature Controlled TestingMicro-Mechanical TestingViscoelastic & Time-Dependent Testing

RESEARCH APPLICATIONS

Cell Laden HydrogelsDental & Oral Tissue BiomechanicsDrug Screening & Drug Delivery MechanicsHydrogel Mechanical TestingMechanotransductionMicrotissue and Spheroid MechanicsOrganoid and Tissue Mimetic SystemsStem Cell Mechanobiology

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