Donor-Derived Brain Tumor Following Neural Stem Cell Transplantation in an Ataxia Telangiectasia Patient

Amariglio, Ninette; Hirshberg, Abraham; Scheithauer, Bernd W.; Cohen, Yoram; Loewenthal, Ron; Trakhtenbrot, Luba; Paz, Nurit; Koren‐Michowitz, Maya; Waldman, Dalia; Leider-Trejo, Leonor; Toren, Amos; Constantini, Shlomi; Rechavi, Gideon

doi:10.1371/journal.pmed.1000029

Cited by 834 publications

(559 citation statements)

References 34 publications

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“…Thus, the risk of tumour initiation of transplanted cells would be increased in injured spinal cords. Actually, a positive correlation between traumatic injury and development of malignancy has recently been reported in the CNS 42 . To support this insight, RNA-seq demonstrated that NSPCs are exposed to various types of stress that could lead to DNA damage after transplantation 2 .…”

Section: Discussionmentioning

confidence: 97%

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Direct isolation and RNA-seq reveal environment-dependent properties of engrafted neural stem/progenitor cells

et al. 2012

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neural stem/progenitor cell (nsPC) transplantation is a promising treatment for various neurodegenerative disorders including spinal cord injury, however, no direct analysis has ever been performed on their in vivo profile after transplantation. Here we combined bioimaging, flow-cytometric isolation and ultra-high-throughput RnA sequencing to evaluate the cellular properties of engrafted nsPCs. The acutely transplanted nsPCs had beneficial effects on spinal cord injury, particularly neuroprotection and neurohumoral secretion, whereas their in situ secretory activity differed significantly from that predicted in vitro. The RnA-sequencing of engrafted nsPCs revealed dynamic expression/splicing changes in various genes involved in cellular functions and tumour development depending on graft environments. notably, in the pathological environment, overall transcriptional activity, external signal transduction and neural differentiation of engrafted nsPCs were significantly suppressed. These results highlight the vulnerability of engrafted nsPCs to environmental force, while emphasizing the importance of in situ analysis in advancing the efficacy and safety of stem cell-based therapies.

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Section: Discussionmentioning

confidence: 97%

“…Recently, Amariglio et al 42 reported that transplanted NSPCs gave rise to glioneuronal neoplasms in a patient with ataxia telangiectasia. Although this report is controversial 43,44 , this highlights one of the biggest safety hurdles to overcome.…”

Section: Discussionmentioning

confidence: 99%

Direct isolation and RNA-seq reveal environment-dependent properties of engrafted neural stem/progenitor cells

et al. 2012

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“…The hypothesis of EV secretion by NPCs introduces a completely different dimension to the therapeutic applications of NPCs in regenerative medicine. By replacing transplantation of NPCs with administration of their secreted products (including EVs), many of the limitations and safety concerns associated with the transplantation of viable replicating cells, such as tumors arising from transplanted NPCs, could be mitigated (Amariglio et al, 2009). …”

Section: Signaling Through Extracellular Membrane Vesiclesmentioning

confidence: 99%

How stem cells speak with host immune cells in inflammatory brain diseases

Pluchino

Cossetti

2013

Glia

111

109

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Advances in stem cell biology have raised great expectations that diseases and injuries of the central nervous system (CNS) may be ameliorated by the development of non-hematopoietic stem cell medicines. Yet, the application of adult stem cells as CNS therapeutics is challenging and the interpretation of some of the outcomes ambiguous. In fact, the initial idea that stem cell transplants work only via structural cell replacement has been challenged by the observation of consistent cellular signaling between the graft and the host. Cellular signaling is the foundation of coordinated actions and flexible responses, and arises via networks of exchanging and interacting molecules that transmit patterns of information between cells. Sustained stem cell graft-to-host communication leads to remarkable trophic effects on endogenous brain cells and beneficial modulatory actions on innate and adaptive immune responses in vivo, ultimately promoting the healing of the injured CNS. Among a number of adult stem cell types, mesenchymal stem cells (MSCs) and neural stem/precursor cells (NPCs) are being extensively investigated for their ability to signal to the immune system upon transplantation in experimental CNS diseases. Here, we focus on the main cellular signaling pathways that grafted MSCs and NPCs use to establish a therapeutically relevant cross talk with host immune cells, while examining the role of inflammation in regulating some of the bidirectionality of these communications. We propose that the identification of the players involved in stem cell signaling might contribute to the development of innovative, high clinical impact therapeutics for inflammatory CNS diseases.

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“…66 It may be prudent to have some method of eliminating the transplanted cells (or causing their terminal differentiation) after they have served their function.…”

Section: Resultsmentioning

confidence: 99%

Novel Treatment Strategies for Malignant Gliomas Using Neural Stem Cells

Lim

2009

Neurotherapeutics

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Summary:Recent studies in stem cell biology have refined our understanding of the origin and progression of cancer. Identification and characterization of endogenous neural stem cells (NSCs), especially those in the adult human brain, have inspired new ideas for selectively targeting and destroying malignant gliomas. Gliomas consist of a heterogeneous population of cells, and some of these cells have characteristics of cancer stem cells. These brain tumor stem cells (BTSCs) share certain characteristics with normal NSCs. It is still unclear, however, whether malignant gliomas in human patients originate from these aberrant BTSCs. Nonetheless, the cellular and molecular similarities between BTSCs and normal NSCs suggest a common research landscape underlying both normal and cancer stem cell biology, wherein findings of one field are relevant to the other. Furthermore, the natural tropism of NSCs to gliomas has generated the idea that modified NSCs can deliver modified genes to selectively destroy malignant brain tumor cells, and even BTSCs, while leaving healthy surrounding neurons intact. These studies and others on the basic biology of both BTSCs and NSCs will be crucial to expanding our treatment strategies for malignant gliomas.

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Donor-Derived Brain Tumor Following Neural Stem Cell Transplantation in an Ataxia Telangiectasia Patient

Cited by 834 publications

References 34 publications

Direct isolation and RNA-seq reveal environment-dependent properties of engrafted neural stem/progenitor cells

Direct isolation and RNA-seq reveal environment-dependent properties of engrafted neural stem/progenitor cells

How stem cells speak with host immune cells in inflammatory brain diseases

Novel Treatment Strategies for Malignant Gliomas Using Neural Stem Cells

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