123 research outputs found
Cell-type specific potent Wnt signaling blockade by bispecific antibody.
Cell signaling pathways are often shared between normal and diseased cells. How to achieve cell type-specific, potent inhibition of signaling pathways is a major challenge with implications for therapeutic development. Using the Wnt/Ξ²-catenin signaling pathway as a model system, we report here a novel and generally applicable method to achieve cell type-selective signaling blockade. We constructed a bispecific antibody targeting the Wnt co-receptor LRP6 (the effector antigen) and a cell type-associated antigen (the guide antigen) that provides the targeting specificity. We found that the bispecific antibody inhibits Wnt-induced reporter activities with over one hundred-fold enhancement in potency, and in a cell type-selective manner. Potency enhancement is dependent on the expression level of the guide antigen on the target cell surface and the apparent affinity of the anti-guide antibody. Both internalizing and non-internalizing guide antigens can be used, with internalizing bispecific antibody being able to block signaling by all ligands binding to the target receptor due to its removal from the cell surface. It is thus feasible to develop bispecific-based therapeutic strategies that potently and selectively inhibit signaling pathways in a cell type-selective manner, creating opportunity for therapeutic targeting
Antibody-drug conjugate targeting CD46 eliminates multiple myeloma cells
Multiple myeloma is incurable by standard approaches because of inevitable relapse and development of treatment resistance in all patients. In our prior work, we identified a panel of macropinocytosing human monoclonal antibodies against CD46, a negative regulator of the innate immune system, and constructed antibody-drug conjugates (ADCs). In this report, we show that an anti-CD46 ADC (CD46-ADC) potently inhibited proliferation in myeloma cell lines with little effect on normal cells. CD46-ADC also potently eliminated myeloma growth in orthometastatic xenograft models. In primary myeloma cells derived from bone marrow aspirates, CD46-ADC induced apoptosis and cell death, but did not affect the viability of nontumor mononuclear cells. It is of clinical interest that the CD46 gene resides on chromosome 1q, which undergoes genomic amplification in the majority of relapsed myeloma patients. We found that the cell surface expression level of CD46 was markedly higher in patient myeloma cells with 1q gain than in those with normal 1q copy number. Thus, genomic amplification of CD46 may serve as a surrogate for target amplification that could allow patient stratification for tailored CD46-targeted therapy. Overall, these findings indicate that CD46 is a promising target for antibody-based treatment of multiple myeloma, especially in patients with gain of chromosome 1q
EvaluaciΓ³n de Test de Inteligencia No Verbal-4 : TONI-4
Prueba valorada en la ronda de evaluaciones del aΓ±o 2019El TONI-4, Test de Inteligencia No Verbal - 4, es un instrumento de aplicaciΓ³n individual que evalΓΊa la inteligencia general mediante el razonamiento abstracto y la resoluciΓ³n de problemas libres de factores lingΓΌΓsticos, motores o culturales, ya que puede ser aplicado de forma verbal y no verbal. Es por ello que el TONI-4 es muy ΓΊtil en personas que previamente han presentado dificultades a la hora de responder test de inteligencia tradicionales. El TONI-4 estΓ‘ formado por una ΓΊnica escala que evalΓΊa la inteligencia global, ya que el objetivo que se pretendΓa conseguir con la construcciΓ³n de este test era precisamente la obtenciΓ³n de un instrumento que evaluara la inteligencia global y no una medida exhaustiva de los distintos componentes de la inteligencia. SegΓΊn el manual, ademΓ‘s, sirve para identificar a personas con una posible discapacidad intelectual; comparar los motivos de derivaciΓ³n de otros profesionales para obtener un tratamiento, terapia o acceso a servicios especiales; formular hipΓ³tesis que sirvan de guΓa para una intervenciΓ³n u otras evaluaciones y, finalmente, tambiΓ©n se puede utilizar en la selecciΓ³n de personal o para realizar investigaciones
The Tumor-Immune Microenvironment and Response to Radiation Therapy
Chemotherapy and radiation therapy (RT) are standard therapeutic modalities for patients with cancer, including breast cancer. Historic studies examining tissue and cellular responses to RT have predominantly focused on damage caused to proliferating malignant cells leading to their death. However, there is increasing evidence that RT also leads to significant alterations in the tumor microenvironment, particularly with respect to effects on immune cells infiltrating tumors. This review focuses on tumor-associated immune cell responses following RT and discusses how immune responses may be modified to enhance durability and efficacy of RT
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Cell-type specific potent Wnt signaling blockade by bispecific antibody.
Cell signaling pathways are often shared between normal and diseased cells. How to achieve cell type-specific, potent inhibition of signaling pathways is a major challenge with implications for therapeutic development. Using the Wnt/Ξ²-catenin signaling pathway as a model system, we report here a novel and generally applicable method to achieve cell type-selective signaling blockade. We constructed a bispecific antibody targeting the Wnt co-receptor LRP6 (the effector antigen) and a cell type-associated antigen (the guide antigen) that provides the targeting specificity. We found that the bispecific antibody inhibits Wnt-induced reporter activities with over one hundred-fold enhancement in potency, and in a cell type-selective manner. Potency enhancement is dependent on the expression level of the guide antigen on the target cell surface and the apparent affinity of the anti-guide antibody. Both internalizing and non-internalizing guide antigens can be used, with internalizing bispecific antibody being able to block signaling by all ligands binding to the target receptor due to its removal from the cell surface. It is thus feasible to develop bispecific-based therapeutic strategies that potently and selectively inhibit signaling pathways in a cell type-selective manner, creating opportunity for therapeutic targeting
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