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Pivot Concepts:
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Target Concepts:
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Query: UMLS:C0406810 (
NAME
)
13,345
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Adoptive immunotherapy in the form of allogeneic hematopoietic stem cell transplantation (allo-HSCT) is a treatment modality for acute and chronic leukemias that has been in practice for several decades. Drawbacks to transplantation include toxicity from chemotherapy/radiation conditioning regimens, additional toxicity from graft versus host disease, and reliance on appropriate
human leukocyte antigen
matched donors. Newer modalities with increased specificity of donor cells to tumor cells in addition to therapies that do not require engraftment for anti-tumor effect reduce the risk of graft versus host disease and may create a more robust graft versus leukemia response. Without the need for engraftment, or at the very least in the absence of a 100% engraftment requirement, conditioning regimens may be minimized. Three methods of adoptive immunotherapy that may offer some of these advantages over traditional transplantation are donor lymphocyte infusions (DLI), chimeric antigen receptor modified T cells (
CAR
T cells), and cellular immunotherapy. DLIs and cellular therapy consist of transfusing T lymphocytes from the donor to recipient in an unmanipulated form. Alternatively, donor T lymphocytes can be modified with addition of chimeric antigen receptors for specific antigen directed killing of tumor cells. Significant responses and survival benefit have been reported with these modalities. Herein, we review the mechanisms for these newer adoptive immune therapies, clinical indications for their use, and potential future directions.
...
PMID:Advances in cellular therapy for the treatment of leukemia. 2441 97
The adoptive transfer of T cells engineered to express artificial chimeric antigen receptors CARs) that target a tumor cell surface molecule has emerged as an exciting new approach for cancer immunotherapy. Clinical trials in patients with advanced B cell malignancies treated with CD19-specific CAR-modified T cells (
CAR
-T) have shown impressive antitumor efficacy, leading to optimism that this approach will be useful for treating common solid tumors. Because CAR-T cells recognize tumor cells independent of their expression of
human leukocyte antigen
(
HLA
) molecules, tumors that escape conventional T cells by downregulating
HLA
and/or mutating components of the antigen processing machinery can be eliminated. The ability to introduce or delete additional genes in T cells has the potential to provide therapeutic cell products with novel attributes that overcome impediments to immune mediated tumor elimination in immunosuppressive tumor microenvironments. This review will discuss recent concepts in the development of effective and safe synthetic CARs for adoptive T cell therapy (ACT).
...
PMID:Designing chimeric antigen receptors to effectively and safely target tumors. 2562 40
Chimeric antigen receptor-T cell (CAR-T) therapy has been effective in the treatment of hematologic malignancies, but it has shown limited efficacy against solid tumors. Here we demonstrate an approach to enhancing
CAR
-T function in solid tumors by directly vaccine-boosting donor cells through their chimeric receptor in vivo. We designed amphiphile
CAR
-T ligands (amph-ligands) that, upon injection, trafficked to lymph nodes and decorated the surfaces of antigen-presenting cells, thereby priming
CAR
-Ts in the native lymph node microenvironment. Amph-ligand boosting triggered massive
CAR
-T expansion, increased donor cell polyfunctionality, and enhanced antitumor efficacy in multiple immunocompetent mouse tumor models. We demonstrate two approaches to generalizing this strategy to any chimeric antigen receptor, enabling this simple non-
human leukocyte antigen
-restricted approach to enhanced
CAR
-T functionality to be applied to existing
CAR
-T designs.
...
PMID:Enhanced CAR-T cell activity against solid tumors by vaccine boosting through the chimeric receptor. 3137 92
RNA polymerase III (Pol III) promoters express short non-coding RNAs and have been adopted for expression of microRNA, interference RNA, and CRISPR single guide RNA (sgRNA). Vectors incorporating H1 and U6 Pol III promoters are being applied for therapeutic genome editing, including multiplexed CRISPR/Cas9 effects. We report a nucleosome-depleted, minimal U6 promoter, which when embedded within lentiviral long terminal repeat (LTR) regions, supports high level transcriptional activity. Furthermore, duplex minimal H1 & U6 promoters transcribed dual sgRNAs for simultaneous disruption of T cell receptor (TCR) and
human leukocyte antigen
(
HLA
) molecules, supporting efficient generation of 'universal'
CAR
T cells.
...
PMID:'Mini' U6 Pol III promoter exhibits nucleosome redundancy and supports multiplexed coupling of CRISPR/Cas9 effects. 3220 98
Natural killer (NK) cells have a potent cytotoxic activity against leukemia and lymphoma without recognition of
human leukocyte antigen
(
HLA
) molecules. Chimeric antigen receptor-engineered NK cells (
CAR
-NK cells) can be produced from the NK92 cell line, peripheral blood, cord blood, and induced pluripotent stem cells for immunotherapy of malignant tumor cells. Recently, the safety and efficacy of
HLA
-mismatched allogeneic cord blood-derived CD19
CAR
-NK cell therapy for CD19-positive hematological malignancies have been reported. However, the durability of clinical effects has not been clarified. The characteristics of
CAR
-NK cells with a strong antileukemia/lymphoma effect and better proliferative capacity without severe adverse effects may be promising for overcoming intractable hematological malignancies as an off-the-shelf allogeneic cellular therapy.
...
PMID:Recent advances in chimeric antigen receptor natural killer cell therapy for overcoming intractable hematological malignancies. 3290 18
Therapies employing chimeric antigen receptor T cells (
CAR
-T cells) targeting tumour-associated antigens (TAAs) can lead to on-target-off-tumour toxicity and to resistance, owing to TAA expression in normal tissues and to TAA expression loss in tumour cells. These drawbacks can be circumvented by
CAR
-T cells targeting tumour-specific driver gene mutations, such as the four-nucleotide duplication in the oncogene nucleophosmin (NPM1c), which creates a neoepitope presented by the
human leukocyte antigen
with the A2 serotype (HLA-A2) that has been observed in about 35% of patients with acute myeloid leukaemia (AML). Here, we report a human single-chain variable fragment (scFv), identified via yeast surface display, that specifically binds to the NPM1c epitope-HLA-A2 complex but not to HLA-A2 or to HLA-A2 loaded with control peptides. In vitro and in mice,
CAR
-T cells with the scFv exhibit potent cytotoxicity against NPM1c
+
HLA-A2
+
leukaemia cells and primary AML blasts, but not NPM1c
-
HLA-A2
+
leukaemia cells or HLA-A2
-
tumour cells. Therapies using NPM1c
CAR
-T cells for the treatment of NPM1c
+
HLA-A2
+
AML may limit on-target-off-tumour toxicity and tumour resistance.
...
PMID:CAR-T cells targeting a nucleophosmin neoepitope exhibit potent specific activity in mouse models of acute myeloid leukaemia. 3304 66
