Akanksha Panwar scite author profile

BackgroundSmall populations of highly tumorigenic stem-like cells (cancer stem cells; CSCs) can exist within, and uniquely regenerate cancers including malignant brain tumors (gliomas). Many aspects of glioma CSCs (GSCs), however, have been characterized in non-physiological settings.MethodsWe found gene expression similarity superiorly defined glioma “stemness”, and revealed that GSC similarity increased with lower tumor grade. Using this method, we examined stemness in human grade IV gliomas (GBM) before and after dendritic cell (DC) vaccine therapy. This was followed by gene expression, phenotypic and functional analysis of murine GL26 tumors recovered from nude, wild-type, or DC-vaccinated host brains.ResultsGSC similarity was specifically increased in post-vaccine GBMs, and correlated best to vaccine-altered gene expression and endogenous anti-tumor T cell activity. GL26 analysis confirmed immune alterations, specific acquisition of stem cell markers, specifically enhanced sensitivity to anti-stem drug (cyclopamine), and enhanced tumorigenicity in wild-type hosts, in tumors in proportion to anti-tumor T cell activity. Nevertheless, vaccine-exposed GL26 cells were no more tumorigenic than parental GL26 in T cell-deficient hosts, though they otherwise appeared similar to GSCs enriched by chemotherapy. Finally, vaccine-exposed GBM and GL26 exhibited relatively homogeneous expression of genes expressed in progenitor cells and/or differentiation.ConclusionsT cell activity represents an inducible physiological process capable of proportionally enriching GSCs in human and mouse gliomas. Stem-like gliomas enriched by strong T cell activity, however, may differ from other GSCs in that their stem-like properties may be disassociated from increased tumor malignancy and heterogeneity under specific host immune conditions.

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Intrinsically de-sialylated CD103+ CD8 T cells mediate beneficial anti-glioma immune responses

Jouanneau

Black

Veiga

et al. 2014

Cancer Immunol Immunother

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Functional recreation of age-related CD8 T cells in young mice identifies drivers of aging- and human-specific tissue pathology

Panwar

Jhun

Rentsendorj

et al. 2020

Mechanisms of Ageing and Development

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Mitigating effects of aging on human health remains elusive because aging impacts multiple systems simultaneously, and because experimental animals exhibit critical aging differences relative to humans. Separation of aging into discrete processes may identify targetable drivers of pathology, particularly when applied to human-specific features. Gradual homeostatic expansion of CD8 T cells dominantly alters their function in aging humans but not in mice. Injecting T cells into athymic mice induces rapid homeostatic expansion, but its relevance to aging remains uncertain. We hypothesized that homeostatic expansion of T cells injected into T-deficient hosts models physiologically relevant CD8 T cell aging in young mice, and aimed to analyze age-related T cell phenotype and tissue pathology in such animals. Indeed, we found that such injection conferred uniform age-related phenotype, genotype, and function to mouse CD8 T cells, heightened age-associated tissue pathology in young athymic hosts, and humanized amyloidosis after brain injury in secondary wild-type recipients. This validates a model conferring a human-specific aging feature to mice that identifies targetable drivers of tissue pathology. Similar examination of independent aging features should promote systematic understanding of aging and identify additional targets to mitigate its effects on human health.

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CD103 Deficiency Promotes Autism (ASD) and Attention-Deficit Hyperactivity Disorder (ADHD) Behavioral Spectra and Reduces Age-Related Cognitive Decline

et al. 2020

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The incidence of autism spectrum disorders (ASD) and attention deficit hyperactivity disorder (ADHD), which frequently co-occur, are both rising. The causes of ASD and ADHD remain elusive, even as both appear to involve perturbation of the gut-brain-immune axis. CD103 is an integrin and E-cadherin receptor most prominently expressed on CD8 T cells that reside in gut, brain, and other tissues. CD103 deficiency is well-known to impair gut immunity and resident T cell function, but it's impact on neurodevelopmental disorders has not been examined. We show here that CD8 T cells influence neural progenitor cell function, and that CD103 modulates this impact both directly and potentially by controlling CD8 levels in brain. CD103 knockout (CD103KO) mice exhibited a variety of behavioral abnormalities, including superior cognitive performance coupled with repetitive behavior, aversion to novelty and social impairment in females, with hyperactivity with delayed learning in males. Brain protein markers in female and male CD103KOs coincided with known aspects of ASD and ADHD in humans, respectively. Surprisingly, CD103 deficiency also decreased age-related cognitive decline in both sexes, albeit by distinct means. Together, our findings reveal a novel role for CD103 in brain developmental function, and identify it as a unique factor linking ASD and ADHD etiology. Our data also introduce a new animal model of combined ASD and ADHD with associated cognitive benefits, and reveal potential therapeutic targets for these disorders and age-related cognitive decline.

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Abnormal CD8 T cells induce and track Alzheimer’s-like neurodegeneration

Wheeler¹,

Panwar²,

Rentsendorj³

et al. 2021

Preprint

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Sporadic Alzheimer’s disease, the most common neurodegenerative disorder of aging, is characterized by cerebral plaques and neurofibrillary tangles. Experimental rodents develop plaques but neither tangles nor substantial neurodegeneration under conditions that guarantee Alzheimer’s in humans, suggesting rodents lack critical co-initiation factors. Accumulation of antigen-reactive memory CD8 T cells increases with aging, and was recently revealed as a hallmark of human Alzheimer’s. The impact of this process on disease initiation, however, has not been established because age-related T cell changes are muted in rodents. We developed a mouse model of human-like CD8 T cell aging that promotes antigen-reactive memory CD8 T cell accumulation. Here we show that these “hiT” mice develop all major hallmarks of Alzheimer’s with aging, including tangle-like inclusions and substantial neurodegeneration. Antigen-reactive CD8 T cells analogous to those in hiT mice increased in Alzheimer’s brain, but decreased earlier in blood, where their loss effectively distinguished the Alzheimer’s continuum from aging controls. Our findings establish a clinically relevant mouse model for sporadic Alzheimer’s and show that age-related immune dysfunction critically contributes to its initiation. They also identify useful immune-based targets to track and potentially treat human Alzheimer’s, while validating a model system to examine age-related disease immuno-biology more generally.

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Akanksha Panwar

T Cells Enhance Stem-Like Properties and Conditional Malignancy in Gliomas

Intrinsically de-sialylated CD103+ CD8 T cells mediate beneficial anti-glioma immune responses

Functional recreation of age-related CD8 T cells in young mice identifies drivers of aging- and human-specific tissue pathology

CD103 Deficiency Promotes Autism (ASD) and Attention-Deficit Hyperactivity Disorder (ADHD) Behavioral Spectra and Reduces Age-Related Cognitive Decline

Abnormal CD8 T cells induce and track Alzheimer’s-like neurodegeneration

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