Conceal, don't feel : Representing emotional suppression through deep game design

Kokkinidis, Alexandros, Berghäll, Adam, Österlund, Emma, Paulsen, Hampus

January 2021

This paper follows the process of the authors using deep game design as means of expression by making a game that models the authors experience of anger suppression. It will be based on theories of psychology to define what suppressed emotions are. It also includes other game design theories that are different from Deep Games discovered in the books Art of Game Design and Game Design Workshop. The ideas of preproduction are looked at briefly.  Subsequently, the game is tested iteratively through qualitative interviews with the purpose of studying how the players identify the metaphors in the game. The development process is documented through three iterations, where each iteration is broken down into the technical aspect, the metaphors, the results of the playtests, the findings, and then a short discussion. The authors find four aspects on how to apply deep game design, and three different understandings of their metaphors by the players. / Den här avhandlingen följer författarnas process att göra ett deep game som ett sätt att utrycka sig om undertryckt ilska. Den kommer till största del grunda sig på teorier om psykologi för att definiera vad undertryckta känslor är. Avhandlingen innehåller även andra speldesignsteorier som skiljer sig ifrån Deep Games som beskrivs i böckerna Art of Game Design och Game Design Workshop. Idéerna från förproduktionen undersöks kort.  Därefter testas spelet iterativt genom kvalitativa intervjuer med syfte att studera hur spelarna identifierar metaforerna i spelet. Sedan undersöks idéerna som skapades under förproduktionen. Utvecklingsprocessen dokumenteras genom tre iterationer, varje iteration bryts ned till dess tekniska delar, metaforer, resultat av speltest, samt en kort diskussion.   Författarna identifierar fyra aspekter på hur man använder deep game design och att spelarna har tre olika förståelser av deras metaforer.

Emotional Suppression

Anger

Game Design Theory

Deep Game design

Playtesting

Iterative Design

Design

Design

HCV-Associated Exosomes Upregulate RUNXOR and RUNX1 Expressions to Promote MDSC Expansion and Suppressive Functions through STAT3-miR124 Axis

Thakuri, Bal Krishna Chand, Zhang, Jinyu, Zhao, Juan, Nguyen, Lam N., Nguyen, Lam N.T., Schank, Madison, Khanal, Sushant, Dang, Xindi, Cao, Dechao, Lu, Zeyuan, Wu, Xiao Y., Jiang, Yong, El Gazzar, Mohamed, Ning, Shunbin, Wang, Ling, Moorman, Jonathan P., Yao, Zhi Q.

18 December 2020

RUNX1 overlapping RNA (RUNXOR) is a long non-coding RNA and plays a pivotal role in the differentiation of myeloid cells via targeting runt-related transcription factor 1 (RUNX1). We and others have previously reported that myeloid-derived suppressor cells (MDSCs) expand and inhibit host immune responses during chronic viral infections; however, the mechanisms responsible for MDSC differentiation and suppressive functions, in particular the role of RUNXOR-RUNX1, remain unclear. Here, we demonstrated that RUNXOR and RUNX1 expressions are significantly upregulated and associated with elevated levels of immunosuppressive molecules, such as arginase 1 (Arg1), inducible nitric oxide synthase (iNOS), signal transducer and activator of transcription 3 (STAT3), and reactive oxygen species (ROS) in MDSCs during chronic hepatitis C virus (HCV) infection. Mechanistically, we discovered that HCV-associated exosomes (HCV-Exo) can induce the expressions of RUNXOR and RUNX1, which in turn regulates miR-124 expression via STAT3 signaling, thereby promoting MDSC differentiation and suppressive functions. Importantly, overexpression of RUNXOR in healthy CD33+ myeloid cells promoted differentiation and suppressive functions of MDSCs. Conversely, silencing RUNXOR or RUNX1 expression in HCV-derived CD33+ myeloid cells significantly inhibited their differentiation and expressions of suppressive molecules and improved the function of co-cultured autologous CD4 T cells. Taken together, these results indicate that the RUNXOR-RUNX1-STAT3-miR124 axis enhances the differentiation and suppressive functions of MDSCs and could be a potential target for immunomodulation in conjunction with antiviral therapy during chronic HCV infection.

HCV

immune suppression

MDSCs

miR124

RUNX1

RUNXOR

Biomedical Sciences

Internal Medicine

Intracellular S100A9 Promotes Myeloid-Derived Suppressor Cells During Late Sepsis

Dai, Jun, Kumbhare, Ajinkya, Youssef, Dima, McCall, Charles E., El Gazzar, Mohamed

17 November 2017

Myeloid precursor cell reprogramming into a myeloid-derived suppressor cell (MDSC) contributes to high mortality rates in mouse and human sepsis. S100A9 mRNA and intracellular protein levels increase during early sepsis and remain elevated in Gr1+CD11b+ MDSCs after pro-inflammatory sepsis transitions to the later chronic anti-inflammatory and immunosuppressive phenotype. The purpose of this study was to determine whether intracellular S100A9 protein might sustain Gr1+CD11b+ MDSC repressor cell reprogramming during sepsis. We used a chronic model of sepsis in mice to show that S100A9 release from MDSCs and circulating phagocytes decreases after early sepsis and that targeting the S100a9 gene improves survival. Surprisingly, we find that intracellular S100A9 protein translocates from the cytosol to nucleus in Gr1+CD11b+ MDSCs during late sepsis and promotes expression of miR-21 and miR-181b immune repressor mediators. We further provide support of this immunosuppression pathway in human sepsis. This study may inform a new therapeutic target for improving sepsis outcome.

immune suppression

myeloid cell reprogramming

myeloid-derived suppressor cells

S100A9

sepsis

Internal Medicine

The Effect of Cognitive-Affective Factors on PTSD and Alcohol Use Symptoms: An Investigation on Rumination, Suppression, and Reappraisal

Christ, Nicole M.

January 2021

No description available.

Psychology

PTSD

alcohol use

emotion regulation

reappraisal

rumination

dimensions of rumination

suppression

latent profile analysis

typologies

Metabolic Regulatory Clues From the Naked Mole Rat: Toward Brain Regulatory Functions During Stroke

Nathaniel, Thomas I., Otukonyong, Effiong E., Okon, Marvin, Chaves, Jose, Cochran, Thomas, Nathaniel, Adebobola I.

02 September 2013

Resistance to tissue hypoxia is a robust fundamental adaptation to low oxygen supply, and represents a novel neuroscience problem with significance to mammalian physiology as well as human health. With the underlying mechanisms strongly conserved in evolution, the ability to resist tissue hypoxia in natural systems has recently emerged as an interesting model in mammalian physiology research to understand mechanisms that can be manipulated for the clinical management of stroke. The extraordinary ability to resist tissue hypoxia by the naked mole rat (NMR) indicates the presence of a unique mechanism that underlies the remarkable healthy life span and exceptional hypoxia resistance. This opens an interesting line of research into understanding the mechanisms employed by the naked mole rat (. Heterocephalus glaber) to protect the brain during hypoxia. In a series of studies, we first examined the presence of neuroprotection in the brain cells of naked mole rats (NMRs) subjected to hypoxic insults, and then characterized the expression of such neuroprotection in a wide range of time intervals. We used oxygen nutrient deprivation (OND), an in vitro model of resistance to tissue hypoxia to determine whether there is evidence of neuronal survival in the hippocampal (CA1) slices of NMRs that are subjected to chronic hypoxia. Hippocampus neurons of NMRs that were kept in hypoxic condition consistently tolerated OND right from the onset time of 5. h. This tolerance was maintained for 24. h. This finding indicates that there is evidence of resistance to tissue hypoxia by CA1 neurons of NMRs. We further examined the effect of hypoxia on metabolic rate in the NMR. Repeated measurement of metabolic rates during exposure of naked mole rats to hypoxia over a constant ambient temperature indicates that hypoxia significantly decreased metabolic rates in the NMR, suggesting that the observed decline in metabolic rate during hypoxia may contribute to the adaptive mechanism used by the NMR to resist tissue hypoxia. This work is aimed to contribute to the understanding of mechanisms of resistance to tissue hypoxia in the NMR as an important life-sustaining process, which can be translated into therapeutic interventions during stroke.

brain injury

hypoxia

metabolic suppression

Nnked mole rats

neuroprotection

stroke

Health Sciences

Metabolic Regulatory Clues From the Naked Mole Rat: Toward Brain Regulatory Functions During Stroke

Nathaniel, Thomas I., Otukonyong, Effiong E., Okon, Marvin, Chaves, Jose, Cochran, Thomas, Nathaniel, Adebobola I.

02 September 2013

Resistance to tissue hypoxia is a robust fundamental adaptation to low oxygen supply, and represents a novel neuroscience problem with significance to mammalian physiology as well as human health. With the underlying mechanisms strongly conserved in evolution, the ability to resist tissue hypoxia in natural systems has recently emerged as an interesting model in mammalian physiology research to understand mechanisms that can be manipulated for the clinical management of stroke. The extraordinary ability to resist tissue hypoxia by the naked mole rat (NMR) indicates the presence of a unique mechanism that underlies the remarkable healthy life span and exceptional hypoxia resistance. This opens an interesting line of research into understanding the mechanisms employed by the naked mole rat (. Heterocephalus glaber) to protect the brain during hypoxia. In a series of studies, we first examined the presence of neuroprotection in the brain cells of naked mole rats (NMRs) subjected to hypoxic insults, and then characterized the expression of such neuroprotection in a wide range of time intervals. We used oxygen nutrient deprivation (OND), an in vitro model of resistance to tissue hypoxia to determine whether there is evidence of neuronal survival in the hippocampal (CA1) slices of NMRs that are subjected to chronic hypoxia. Hippocampus neurons of NMRs that were kept in hypoxic condition consistently tolerated OND right from the onset time of 5. h. This tolerance was maintained for 24. h. This finding indicates that there is evidence of resistance to tissue hypoxia by CA1 neurons of NMRs. We further examined the effect of hypoxia on metabolic rate in the NMR. Repeated measurement of metabolic rates during exposure of naked mole rats to hypoxia over a constant ambient temperature indicates that hypoxia significantly decreased metabolic rates in the NMR, suggesting that the observed decline in metabolic rate during hypoxia may contribute to the adaptive mechanism used by the NMR to resist tissue hypoxia. This work is aimed to contribute to the understanding of mechanisms of resistance to tissue hypoxia in the NMR as an important life-sustaining process, which can be translated into therapeutic interventions during stroke.

brain injury

hypoxia

metabolic suppression

Nnked mole rats

neuroprotection

stroke

Health Sciences

PD-1 Modulates Regulatory T Cells and Suppresses T-Cell Responses in Hcv-Associated Lymphoma

Ni, Lei, Ma, Cheng J., Zhang, Ying, Nandakumar, Subhadra, Zhang, Chun L., Wu, Xiao Y., Borthwick, Thomas, Hamati, Agnes, Chen, Xin Y., Kumaraguru, Uday, Moorman, Jonathan P., Yao, Zhi Q.

01 May 2011

T regulatory (TR) cells suppress T-cell responses that are critical in the development of chronic viral infection and associated malignancies. Programmed death-1 (PD-1) also has a pivotal role in regulation of T-cell functions during chronic viral infection. To examine the role of PD-1 pathway in regulating TR-cell functions that inhibit T-cell responses during virus-associated malignancy, TR cells were investigated in the setting of hepatitis C virus-associated lymphoma (HCV-L), non-HCV-associated lymphoma (non-HCV-L), HCV infection alone and healthy subjects (HS). Relatively high numbers of CD4+ CD25+ and CD8+CD25 + TR cells, as well as high levels of PD-1 expressions on these TR cells were found in the peripheral blood of subjects with HCV-L compared with those from non-HCV-L or HCV alone or HS. TR cells from the HCV-L subjects were capable of suppressing the autogeneic lymphocyte response, and depletion of TR cells in peripheral blood mononuclear cells from HCV-L improved T-cell proliferation. Additionally, the suppressed T-cell activation and proliferation in HCV-L was partially restored by blocking the PD-1 pathway ex vivo, resulting in both a reduction in TR-cell number and the ability of TR to suppress the activity of effector T cells. This study suggests that the PD-1 pathway is involved in regulating TR cells that suppress T-cell functions in the setting of HCV-associated B-cell lymphoma.

HCV

lymphoma

PD-1

T regulatory cells

T-cell suppression

Pathology

Internal Medicine

Immunosuppressive CD14⁺HLA-DR^Low/- Monocytes in Prostate Cancer

Vuk-Pavlović, Stanimir, Bulur, Peggy A., Lin, Yi, Qin, Rui, Szumlanski, Carol L., Zhao, Xinghua, Dietz, Allan B.

01 March 2010

OBJECTIVE. To determine if the levels of circulating myeloid-derived suppressor cells increase with progression of prostate cancer (PCa); to determine if such cells could contribute to the relative inefficiency of PCa immunotherapy. MATERIALS AND METHODS. We analyzed peripheral blood mononuclear cells isolated from untreated PCa patients (uPCa; N=18; mean age±SD: 72.1± 6.9 years), tPCa (N = 22; 72.8 ± 9.8 years) and age matched controls (AMC; N = 12; 68.8 ± 7.5 years). We quantified surface marker phenotype, differentiation potential, effects on T cell proliferation and intracellular cytokines. RESULTS. We observed an unexpectedly high percentage of a type of myeloid-derived suppressor cells, CD14+HLA-DR low/- monocytes, in tPCa (30.7±15.0% of CD14+ cells) relative to AMC (4.1+6.5%, P<0.0001) and uPCa (10.6 ± 14.3%, P = 0.0001). The levels of CD14+ HLA-DR low/- cells were significantly correlated with circulating PSA levels and treatment with LHRH-agonist leuprolide in combination with either an antiandrogen or dexamethasone. Monocytes from tPCa inhibited autologous T cell proliferation statistically significantly more effectively than AMC monocytes and were defective in their ability to differentiate into phenotypically mature dendritic cells. Isolated CD14+HLA-DRlow/- cells expressed higher levels of intracellular interleukin-10 and suppressed T cell proliferation more effectively than isolated CD14+HLA-DR+ cells. CONCLUSIONS. This is the first report of CD14+ cells exhibiting reduced expression of HLADRmolecules in PCa patients. These cells suppress immune cell function in vitro and, plausibly, in vivo, a finding that must be factored into the design of immunotherapy protocols for PCa patients.

androgen suppression

CD14 cells +

dendritic cells

HLA-DR expression

monocytes

mteloid-derived suppressor cells

prostate cancer

TGF-β1/Smad2/3/Foxp3 Signaling Is Required for Chronic Stress-Induced Immune Suppression

Zhang, Haiju, Caudle, Yi, Wheeler, Clay, Zhou, Yu, Stuart, Charles, Yao, Baozhen, Yin, Deling

15 January 2018

Depending on the duration and severity, psychological tension and physical stress can enhance or suppress the immune system in both humans and animals. Although it has been established that chronic stress exerts a significant suppressive effect on immune function, the mechanisms by which affects immune responses remain elusive. By employing an in vivo murine system, we revealed that TGF-β1/Smad2/3/Foxp3 axis was remarkably activated following chronic stress. Furthermore, TLR9 and p38 MAPK played a critical role in the activation of TGF-β1/Smad2/3/Foxp3 signaling cascade. Moreover, inhibition of TGF-β1/Smad2/3/Foxp3 or p38 significantly attenuated chronic stress-induced lymphocyte apoptosis and apoptosis-related proteins, as well as the differentiation of T regulatory cells in spleen. Interestingly, disequilibrium of pro-inflammatory and anti-inflammatory cytokines balance caused by chronic stress was also rescued by blocking TGF-β1/Smad2/3/Foxp3 axis. These findings yield insight into a novel mechanism by which chronic stress modulates immune functions and identifies new targets for the development of novel anti-immune suppressant medications.

chronic stress

FOXP3

immune suppression

SMAD2/3

TGF-β1

TLR9

Internal Medicine

KDM6A Lysine Demethylase Directs Epigenetic Polarity of MDSCs during Murine Sepsis

Bah, Isatou, Alkhateeb, Tuqa, Youssef, Dima, Yao, Zhi Q., McCall, Charles E., El Gazzar, Mohamed

01 January 2021

Sepsis-induced myeloid-derived suppressor cells (MDSCs) increase mortality risk. We previously identified that long non-coding RNA Hotairm1 supports myeloid precursor shifts to Gr1+CD11b+ MDSCs during mouse sepsis. A major unanswered question is what molecular processes control Hotairm1 expression. In this study, we found by a genetic deletion that a specific PU.1-binding site is indispensable in controlling Hotairm1 transcription. We then identified H3K4me3 and H3K27me3 at the PU.1 site on the Hotairm1 promoter. Controlling an epigenetic switch of Hotairm1 transcription by PU.1 was histone KDM6A demethylase for H3K27me3 that derepressed its transcription with possible contributions from Ezh2 methyltransferase for H3K27me3. KDM6A knockdown in MDSCs increased H3K27me3, decreased H3K4me3, and inhibited Hotairm1 transcription activation by PU.1. These results enlighten clinical translation research of PU.1 epigenetic regulation as a potential sepsis immune-checkpoint treatment site.

epigenetics

Hotairm1

immune suppression

myeloid-derived suppressor cell

sepsis

Internal Medicine