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Enzyme
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Pivot Concepts:
Gene/Protein
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Target Concepts:
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Query: UMLS:C0677930 (
primary tumor
)
20,210
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Glioblastoma is an aggressive brain tumor characterized by its high propensity for local invasion, formation of secondary foci within the brain, as well as areas of necrosis. This study aims to (i) provide a technical approach to reproduce features of the disease in vitro and (ii) characterize the tumor/host brain tissue interaction at the molecular level. Human engineered neural tissue (ENT) obtained from pluripotent stem cells was generated and co-cultured with human glioblastoma-initiating cells. Within two weeks, glioblastoma cells invaded the nervous tissue. This invasion displayed features of the disease in vivo: a
primary tumor
mass, diffuse migration of invading single cells into the nervous tissue, secondary foci, as well as peritumoral cell death. Through comparative molecular analyses, this model allowed the identification of more than 100 genes that are specifically induced and up-regulated by the nervous tissue/tumor interaction. Notably the
type I interferon
response, extracellular matrix-related genes were most highly represented and showed a significant correlation with patient survival. In conclusion, glioblastoma development within a nervous tissue can be engineered in vitro, providing a relevant model to study the disease and allows the identification of clinically-relevant genes induced by the tumor/host tissue interaction.
...
PMID:The relationship between brain tumor cell invasion of engineered neural tissues and in vivo features of glioblastoma. 2389 45
It is now well known that the immune system can recognize transformed cells and control the initiation and growth of some cancers, a process termed tumor immunosurveillance. Key regulators of this process have been described in the
primary tumor
setting, where the balance of protumor and antitumor responses dictates tumor initiation and progression. Accumulating evidence suggests that immunosurveillance may also be critical for regulating metastatic spread, the most fatal aspect of cancer, and that mechanisms of overcoming immune control may be quite different from those at the primary site. Our recent findings support loss of
type I interferon
(IFN) signaling as a tumor-cell intrinsic mechanism of evading metastasis-specific immune responses in breast cancer. We revealed that type I IFN-induced innate (natural killer) and adaptive (CD8(+) T cell) responses suppressed bone metastatic growth and this was associated with decreased accumulation of immune suppressor cells (myeloid-derived suppressor cells). This review summarizes recent findings that are in support of tumor-induced immunosurveillance in regulating metastatic spread, including evidence that immune regulation of primary tumors may be distinct from those dictating metastasis.
...
PMID:The emerging role of immunosurveillance in dictating metastatic spread in breast cancer. 2406 12
New clinical trials are now evaluating the efficacy of neoadjuvant immunotherapy in the context of
primary tumor
surgery. Using the orthotopic 4T1.2 mouse model of spontaneously metastatic mammary cancer, we have shown that neoadjuvant immunotherapy and surgery was superior in the generation of tumor-specific CD8
+
T cells and eradication of lethal metastases compared to surgery followed by adjuvant immunotherapy. However, the importance of host Batf3 and
type I interferon
(IFN) for long-term survival of mice following neoadjuvant immunotherapy is unknown. Here we demonstrated that loss of Batf3
+
DCs or type I IFN receptor blockade in 4T1.2 tumor-bearing mice treated with neoadjuvant anti-PD-1+anti-CD137 immunotherapy reduced long-term survival with a corresponding reduction in tumor-specific CD8
+
T cells producing effector cytokines in the
primary tumor
and in the periphery. Interestingly, we found all high-risk stage III melanoma patients relapsing after adjuvant or neoadjuvant ipilimumab+nivolumab within the OpACIN trial (NCT02437279) displayed low expression of Batf3
+
DC-associated genes in pre-treatment tumor biopsies. Further focus should now be placed on validating the requirement of an intratumoral Batf3
+
DC gene signature for response to neoadjuvant immunotherapy.
...
PMID:Batf3
+
DCs and type I IFN are critical for the efficacy of neoadjuvant cancer immunotherapy. 3071 6
Recognition of immunoactive oligonucleotides by the immune system, such as Toll-like receptor ligand CpG, leads to increased antibody and T-cell responses. Systemic application often results in unwanted generalized nonantigen-specific activation of the immune system. Nanoparticles are ideal carriers for small and large molecules. Recently, we have demonstrated that calcium phosphate (CaP) nanoparticles functionalized with CpG, and viral antigens are able to induce specific T-cell immunity that protects mice against viral infection and efficiently reactivates the exhausted CD8
+
T-cell compartment during chronic retroviral infection. Therefore, CaP nanoparticles are promising vaccine vehicles for therapeutic applications. In this study, we investigated the therapeutic potential use of these nanoparticles in a murine xenograft colorectal cancer model. Therapeutic vaccination with CaP nanoparticles functionalized with CpG and tumor model antigens increased the frequencies of cytotoxic CD8
+
T cells in the tumor in a
type I interferon
-dependent manner. This was accompanied with significantly repressed tumor growth in contrast to the systemic administration of soluble CpG and antigens. Combination therapy of CaP nanoparticles and immune checkpoint blocker against PD-L1 further enhanced the cytotoxic CD8
+
T-cell response and eradicated the tumors. Strikingly, vaccination with CaP nanoparticles functionalized with CpG and a
primary tumor
cell lysate was also sufficient to control the tumor growth. In conclusion, our results represent a translational approach for the use of CaP nanoparticles as a potent cancer vaccine vehicle.
...
PMID:A Tumor-Peptide-Based Nanoparticle Vaccine Elicits Efficient Tumor Growth Control in Antitumor Immunotherapy. 3096 17
