分子腫瘍学は、がんの発生、進行、および治療抵抗性を引き起こす遺伝的、エピジェネティック、および生化学的変化を研究します。この分野では、ハイスループットシーケンス、分子診断、および標的治療を統合し、発がん経路、腫瘍抑制遺伝子の不活性化、および腫瘍微小環境との相互作用を解明します。分子プロファイリング、バイオマーカーの発見、および精密医療の進歩は、がんの分類と治療戦略を再定義します。以下のまとめでは、最新の査読済み論文と特許取得済みのイノベーションを紹介し、がん遺伝子、シグナル伝達、がん幹細胞、免疫調節、およびトランスレーショナル腫瘍学と臨床応用にとって不可欠な分子イメージング技術に関する最先端の研究を反映しています。
これは、分子腫瘍学に関する英語の世界中の出版物と特許の最新のセレクションです。多数の科学オンラインジャーナルの中から、がん遺伝子、腫瘍抑制因子、シグナル伝達経路、がんゲノム、がんにおけるエピジェネティクス、分子バイオマーカー、標的がん治療、がん細胞シグナル伝達、DNA変異、腫瘍学におけるマイクロRNA、がん幹細胞、アポトーシス制御、腫瘍微小環境、がん免疫療法、遺伝子発現プロファイル、染色体異常、分子診断、がんプロテオミクス、発がん経路、がん転移、発がんの分子メカニズム、腫瘍の不均一性、がんエピゲノム、発がん性ウイルス、分子標的薬、がんトランスクリプトミクス、DNA修復メカニズム、がん薬理ゲノム、がん分子病理に分類され、焦点を絞っています。
Lineage-loci engineered cell therapy and related methods of producing and using same
Patent published on the 2026-06-11 in WO under Ref WO2026123001 by UMOJA BIOPHARMA INC [US] (O'hara Samantha [us], Romanov Artem [us], Koning Ryan [us], Vereide David T [us], Yingst Ashley M [us], Jarrell Dillon [us])
Abstract: Provided herein are genetically engineered cells containing a payload in a lineage specific locus and related methods and uses thereof in cell therapy. In some embodiments, the cells are genetically engineered with a CAR, such that expression of the CAR is delayed until the cell is differentiated to a lineage. In some embodiments, the genetically modified cells can be selected for using a selection cassette. Also provided are cell compositions containing the engineered cells, and related methods[...]
Our summary: This content discusses lineage-loci engineered cell therapy and methods for producing genetically engineered cells. It highlights the use of CARs that are expressed upon cell differentiation. Additionally, it covers cell compositions, selection methods, and applications in cancer immunotherapy.
cell therapy, genetically engineered cells, CAR, lineage-specific locus
Patent
Tumor antigens for ovarian cancer and uses thereof
Patent published on the 2026-05-28 in WO under Ref WO2026107594 by UNIV DE MONTREAL [CA] (Perreault Claude [ca], Thibault Pierre [ca], Hardy Marie-pierre [ca], Vincent Krystel [ca])
Abstract: Ovarian cancer, notably high-grade serous ovarian cancer (HGSC), the principal cause of death from gynecological malignancies in the world, has not significantly benefited from recent progress in cancer immunotherapy. While HGSC infiltration by lymphocytes correlates with superior survival, the nature of antigens that can elicit anti-HGSC immune responses is still largely unknown. Novel tumor antigens shared by a large proportion of ovarian tumor cells are described herein. Several of the tumor [...]
Our summary: Novel tumor antigens for high-grade serous ovarian cancer are identified, derived from aberrantly expressed genomic sequences. These antigens are not present in normal tissues and may elicit immune responses. The study discusses their potential use in treatments, including nucleic acids, compositions, cells, and vaccines.
tumor antigens, ovarian cancer, immunotherapy, vaccines
Patent
Methods for predicting and improving the efficacy of car t-cell therapy
Patent published on the 2026-05-06 in EP under Ref EP4736874 by UNIV ZUERICH [CH] (Magnani Chiara Francesca [ch], Ponzo Marianna [ch], Gaipa Giuseppe [it], Biondi Andrea [it])
Abstract: [0001] Disclosed is a treatment with a combination of inhibitors useful to improve the effectiveness of CAR T-cell therapies by inhibiting hypoxia, VEGF pathways and inflammation at the tumor microenvironment, thereby enhancing the response to CAR T-cell therapy in tumor patients. There is also disclosed a method for predicting the response to CAR T-cell therapy by determining T cell surface expression markers.[...]
Our summary: The document discusses methods to enhance CAR T-cell therapy effectiveness through inhibitors targeting hypoxia, VEGF pathways, and inflammation. It also presents a predictive method for therapy response based on T cell surface expression markers. These approaches aim to improve patient outcomes in tumor treatments.
CAR T-cell therapy, efficacy prediction, tumor microenvironment, inhibitors
Patent
A fluid processing device for processing droplets
Patent published on the 2026-05-06 in EP under Ref EP4737004 by IMEC VZW [BE] (Yurt Abdulkadir [be], Set Ying Ting [be], Moloudi Reza [be], Vandevelde Bart [be])
Abstract: [0001] The present invention relates to a fluid processing device for processing droplets. The device comprises a plate-like structure comprising a plurality of functional pixels. Each functional pixel is adapted to perform multiple operations on a droplet located on the pixel. Specifically, each pixel can selectively carry out at least two of the following processing operations: manipulating the droplet (e.g., its position), applying heat to the droplet, and subjecting the droplet to a magnetic[...]
Our summary: The invention is a fluid processing device designed for droplet manipulation. It features a plate-like structure with functional pixels that can perform multiple operations on droplets. This device integrates various microfluidic functions into a compact platform for applications in biochemical analysis and drug discovery.
microfluidics, droplet manipulation, functional pixels, biochemical analysis
Patent
Combination of cancer vaccines and anti-trem2 agents for enhanced cancer immunotherapy
Patent published on the 2026-04-23 in WO under Ref WO2026085270 by UNIV TEXAS [US] (Gubin Matthew [us])
Abstract: The present disclosure generally relates to methods for treating cancer, and more specifically to combinatorial approaches using cancer vaccines together with agents targeting the TREM2 receptor to enhance anti-tumor immune responses. The invention includes methods of administering cancer vaccines in combination with anti-TREM2 agents. This approach enhances anti-tumor immunity by expanding tumor-specific T cells while reducing immunosuppressive macrophages in the tumor microenvironment. Additio[...]
Our summary: This disclosure presents methods for treating cancer using a combination of cancer vaccines and anti-TREM2 agents. The approach enhances anti-tumor immunity by increasing tumor-specific T cells and decreasing immunosuppressive macrophages. It also explores the combination of these agents with immune checkpoint inhibitors for improved therapeutic outcomes.
cancer vaccines, anti-TREM2 agents, immunotherapy, tumor microenvironment
Patent
Docking peptides and related antibody-based drug conjugates
Patent published on the 2026-04-23 in US under Ref US20260109780 by SONNET BIOTHERAPEUTICS INC [US] (Cini John K [us], Evans Nick [gb])
Abstract: [0000] Provided herein are novel docking peptides and antibody-based drug conjugates that include such docking peptides. In embodiments, the subject docking peptide allows for the controlled attachment of one or more drug moieties and a tumor targeting moiety that allows for the targeting of the drug moiety to the tumor microenvironment. [0000] In some embodiments, the antibody-based drug conjugates provided herein advantageously allows for enhanced targeted delivery of a drug payload having a c[...]
Our summary: Novel docking peptides enable controlled attachment of drug moieties for targeted delivery. Antibody-based drug conjugates enhance drug payload delivery to tumor sites. The technology allows for a controlled drug-to-antibody ratio for improved therapeutic efficacy.
docking peptides, antibody-drug conjugates, tumor targeting, drug delivery
Patent
Glioblastoma-Derived Extracellular Vesicles Modulate γδ T Lymphocytes Through a MIC-Dependent Mechanism
Published on 2026-02-03 by Micaela Rosato, Paula Saibene Vlez, Alejandra Infante Cruz, Matas A. Pibuel, Federico Fuentes, Mnica Vermeulen, Juan Iturrizaga, Pablo E. Espil, Silvia Berner, Gabriela V. Salamone, Carolina C. Jancic @MDPI
Abstract: Glioblastoma (GBM) is the most aggressive and common primary brain tumor, with a median survival of less than a year after diagnosis. γδ T lymphocytes are immune cells that can migrate to tumors and induce malignant cells’ apoptosis. Our previous in silico studies showed that higher γδ T-cell infiltration in GBM correlates with better patient survival, and in vitro experiments showed that GMB supernatants promote an antitumora[...]
Our summary: Glioblastoma-derived extracellular vesicles (EVs) modulate gamma delta T lymphocytes through a MIC-dependent mechanism. Increased CD69 expression, cytotoxicity, and cytokine production in T cells were observed following EV interaction. These findings offer insights for targeted immunotherapy development in glioblastoma patients.
Extracellular vesicles, Glioblastoma, Gamma delta T lymphocytes, Immunotherapy
Publication
Dynamic microRNA Signatures as Biomarkers for Cardiac Ischemia and Remodeling
Published on 2026-02-03 by Macarena Rodrguez-Serrano, Elena Martn-Garca, Patricia Alonso-Andrs, Elisa Conde-Moreno, Hctor Pian, Javier del Moral-Salmoral, Nunzio Alcharani, Miriam Menacho-Romn, Lorena Crespo-Toro, Miren Edurne Ramos-Muoz, Carlos Zaragoza, Luis Miguel Rincn, Mara G. Barderas, Mara Laura Garca-Bermejo @MDPI
Abstract: Myocardial infarction (MI) triggers complex pathological processes, including inflammation, hypoxia, and fibrotic remodeling. MicroRNAs (miRNAs) have emerged as promising biomarkers for cardiovascular injury; however, their expression dynamics along processes remain underexplored. We used an in vivo rat model of permanent coronary occlusion to study the molecular alterations associated with MI and its resolution in a temporal mode, including five experimental groups with five animals in each: sh[...]
Our summary: This study investigates the dynamic expression of microRNAs as biomarkers for cardiac ischemia following myocardial infarction. Using a rat model, it identifies specific miRNAs that correlate with the progression and resolution of myocardial injury over time. The findings suggest that these miRNA signatures can serve as noninvasive indicators of cardiac stress and potential therapeutic targets.
microRNA, cardiac ischemia, biomarkers, myocardial infarction
Publication
