Type of Document Dissertation Author Jack, Graham Dillon Author's Email Address email@example.com URN etd-07262006-153655 Title Endogenous Stress Signaling within Human Multicellular Aggregates (Spheroids) Degree PhD Department Biochemistry Advisory Committee
Advisor Name Title Helm, Richard Frederick Committee Chair Bevan, David R. Committee Member Hess, John L. Committee Member McDowell, John M. Committee Member Potts, Malcolm Committee Member Keywords
- Human Cells
- Multicellular aggregates
Date of Defense 2006-07-10 Availability unrestricted Abstract
A wide variety of adherent mammalian cells can be induced into a reversible state of metabolic arrest (quiescence) by conversion to non-adherent multicellular aggregates. These "spheroids" can be maintained at room temperature under oxygen- and nutrient-deprived conditions for extended periods of time (weeks) as well as converted back to viable proliferating monolayers. Herein it is shown that HEK293 spheroid arrest and recovery requires the co-activation of both NF-kB and JNK, and chemical inhibition of either NF-kB nuclear translocation or JNK phosphorylation leads to cell death. Cytokine profiling within the aggregates during the arrest and recovery process is suggestive that a cyclical cascade was in operation, leading to endogenous cytokine production of TNF-Alpha, IL-1Beta, and IL-8, thereby propagating the cellular stress signal within cells as well as throughout the aggregate.
Cytokines exist in vivo as mixtures, yet tissue culture studies delineating how cells respond to these molecules are often performed using individual effectors added exogenously. Are the results obtained in these studies true representations of physiological responses? As HEK293 multicellular aggregates (spheroids) survive long term arrest by endogenous cytokine (TNF-Alpha and IL-1Beta) and chemokine (IL-8) signaling, adherent monolayer cells were evaluated for their ability to provide a "spheroid signal response" when exposed to TNF-alpha, IL-1Beta and IL-8 individually, and in combination, at concentrations observed in the aggregates. The spheroid signal transduction response was only observed when all three cytokines were present, demonstrating that signal transduction cascade mechanisms are cytokine-profile dependent.
To determine if similar processes were involved in the arrest and recovery of multicellular aggregates derived from other cell types, the responses of primary human foreskin fibroblasts (HFF-2) and a glioblastoma cell line (T98G) were characterized, utilizing the procedures developed in the HEK293 study. Both the T98G and HFF-2 cell lines entered and exited from the long term arrest utilizing an autocrine response. However, while the carcinoma cell line was dependent upon NF-κB for survival, its signaling partner was Gadd45α and signaling occurred through the p38 pathway. Primary fibroblast arrest and recovery proceeded through the p38 pathway as well, but was independent of NF-κB. Thus, three different cell types and transformation states (HEK293, HFF-2, and T98G) provided three different routes to survival, all with cyclical cytokine production and signaling. These routes cannot be measured or modulated effectively in adherent monolayers. Multicellular aggregates provide higher ordered systems that can be used to describe signaling pathways within a cell, highlighting the role of autocrine responses and the synergistic relationships between cytokines and neighboring cells.
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