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當(dāng)前位置:首頁  >  技術(shù)文章  >  【10月文獻戰(zhàn)報】Bioss抗體新增高分文獻精彩呈現(xiàn)

【10月文獻戰(zhàn)報】Bioss抗體新增高分文獻精彩呈現(xiàn)

更新時間:2023-12-21  |  點擊率:878

截止目前,引用Bioss產(chǎn)品發(fā)表的文獻共27040,總影響因子129798.43,發(fā)表在Nature, Science, Cell以及Immunity等頂級期刊的文獻共62,合作單位覆蓋了清華、北大、復(fù)旦、華盛頓大學(xué)、麻省理工學(xué)院、東京大學(xué)以及紐約大學(xué)等國際研究機構(gòu)上百所。

我們每月收集引用Bioss產(chǎn)品發(fā)表的文獻。若您在當(dāng)月已發(fā)表SCI文章,但未被我公司收集,請致電Bioss,我們將贈予現(xiàn)金鼓勵,金額標(biāo)準(zhǔn)請參考發(fā)文章 領(lǐng)獎金"活動頁面。

近期收錄202310月引用Bioss產(chǎn)品發(fā)表的文獻共269(圖一,綠色柱),文章影響因子(IF) 總和高達1698.2,其中,10分以上文獻34(圖二)。



本文主要分享引用Bioss產(chǎn)品發(fā)表文章至Nano Today/ Immunity / Cancer Cell等期刊的4IF15的文獻摘要,讓我們一起欣賞吧。

Nano Today [IF=17.4]


文獻引用產(chǎn)品:bs-10900R

GAPDH Rabbit pAb| WB

作者單位:中國科學(xué)院納米材料生物醫(yī)學(xué)效應(yīng)與納米安全重點實驗室、南方醫(yī)科大學(xué)


摘要:High-rate aerobic glycolysis and abnormal glutamine metabolism in tumor cells lead to their unlimited malignant proliferation and induce immune escape in the tumor microenvironment. In this study, the GLS1 inhibitor BPTES and the PDHC inhibitor CPI-613 were co-delivered by an ROS-sensitive GEM nano-prodrug (PD-G@BC), and a simultaneous inhibition of glycolysis and glutamine metabolism was achieved to deprive tumor cells of nutrient supply. In addition, this metabolism reprogramming effectively weakened the sources of glucose and glutamine in tumor cells, correspondingly thrived metabolism in antitumor immune cells, thereby increasing the intratumoral infiltration and functions of the immunogenic cells to alleviate the immunosuppressive responses. This multifunctional combination strategy will provide new insights into the design of synergistic cancer immunotherapy based on metabolic interventions.

ACS Nano [IF=17.1]


文獻引用產(chǎn)品:

bsm-51215M; Hsp90 Mouse mAb | WB

bs-0126R; HSP70 Rabbit pAb | WB

作者單位:重慶大學(xué)
摘要:Low-temperature photothermal therapy (PTT) is a noninvasive method that harnesses the photothermal effect at low temperatures to selectively eliminate tumor cells, while safeguarding normal tissues, minimizing thermal damage, and enhancing treatment safety. First we evaluated the transcriptome of tumor cells at the gene level following low-temperature treatment and observed significant enrichment of genes involved in cell cycle and heat response-related signaling pathways. To address this challenge, we have developed an engineering multifunctional nanoplatform that offered an all-in-one strategy for efficient sensitization of low-temperature PTT. Specifically, we utilized MoS2 nanoparticles as the photothermal core to generate low temperature (40–48 °C). The nanoplatform was coated with DPA to load CPT-11 and Fe2+ and was further modified with PEG and iRGD to enhance tumor specificity (MoS2/Fe@CPT-11-PEG-iRGD). Laser- and acid-triggered release of CPT-11 can significantly increase intracellular H2O2 content, cooperate with Fe2+ ions to increase intracellular lipid ROS content, and activate ferroptosis. Furthermore, CPT-11 induced cell cycle arrest in the temperature-sensitive S-phase, and increased lipid ROS levels contributed to the degradation of HSPs protein expression. This synergistic approach could effectively induce tumor cell death by the sensitized low-temperature PTT and the combination of ferroptosis and chemotherapy. Our nanoplatform can also maximize tumor cell eradication and prolong the survival time of tumor-bearing mice in vivo. The multifunctional approach will provide more possibilities for clinical applications of low-temperature PTT and potential avenues for the development of multiple tumor treatments.

Nature Communications

[IF=16.6]


文獻引用產(chǎn)品:bs-1479R

CD80(B7-1) Rabbit pAb | WB

作者單位:沈陽藥科大學(xué)五亞創(chuàng)新學(xué)院、新加坡國立大學(xué)楊潞齡醫(yī)學(xué)院
摘要:Cytokine therapy, involving interleukin-15 (IL-15), is a promising strategy for cancer immunotherapy. However, clinical application has been limited due to severe toxicity and the relatively low immune response rate, caused by wide distribution of cytokine receptors, systemic immune activation and short half-life of IL-15. Here we show that a biomimetic nanovaccine, developed to co-deliver IL-15 and an antigen/major histocompatibility complex (MHC) selectively targets IL-15 to antigen-specific cytotoxic T lymphocytes (CTL), thereby reducing off-target toxicity. The biomimetic nanovaccine is composed of cytomembrane vesicles, derived from genetically engineered dendritic cells (DC), onto which IL-15/IL-15 receptor α (IL-15Rα), tumor-associated antigenic (TAA) peptide/MHC-I, and relevant costimulatory molecules are simultaneously anchored. We demonstrate that, in contrast to conventional IL-15 therapy, the biomimetic nanovaccine with  IL-15 self-transpresentation (biNV-IL-15) prolonged blood circulation of the cytokine with an 8.2-fold longer half-life than free IL-15 and improved the therapeutic window. This dual targeting strategy allows for spatiotemporal manipulation of therapeutic T cells, elicits broad spectrum antigen-specific T cell responses, and promotes cures in multiple syngeneic tumor models with minimal systemic side effects.

CHEMICAL ENGINEERING

JOURNAL [IF=15.1]


文獻引用產(chǎn)品:S0286
1 % crystal violet solution
作者單位:南京大學(xué)醫(yī)學(xué)院附屬醫(yī)院南京口腔醫(yī)院

摘要:The reconstruction of alveolar bone defect is essential for periodontal regenerative therapy or subsequent prosthetic/implant therapy, particularly in individuals with systemic diseases, such as osteoporosis. ROS accumulation, coupled with aberrant macrophage polarization, is pivotal in the pathogenesis of osteoporosis and contributes to the disequilibrium between bone and the immune system. Consequently, therapeutic strategies targeting the immune microenvironment present a promising approach to the treatment of in situ alveolar bone regeneration in osteoporotic condition. Herein, we present a novel nano platform denoted as RSV@DTPF, designed to target macrophage and facilitate the controllable release of resveratrol in a ROS-responsive behavior. This approach aims to modulate the tampered immune microenvironment. The conjugated folate moiety selectively interacts with the folate receptors expressed on the macrophage surface, thereby augmenting cellular uptake. While the thioketal bond would break down when sensing a high level of intracellular ROS and release the encapsulated RSV. In vitro experiments suggested that designated nanoparticles could scavenge ROS effectively and restore the M1/M2 ratio in a lipopolysaccharide (LPS) -stimulated inflammation environment; The co-culture experiment provided evidence substantiating the adeptness of the modified immune milieu in fostering osteoblast differentiation, while concurrently impeding osteoclast maturation. Furthermore, through comprehensive imaging and histopathological evaluations, we elucidate the potential of RSV@DTPF in promoting osteogenesis within a periodontal defect model utilizing ovariectomized (OVX) rats. This in vivo study substantiates the advantageous impact of the nanoplatform on alveolar bone regeneration and its associated immunomodulatory effects. In summary, the RSV@DTPF nanoplatform exhibited the capacity to orchestrate immune microenvironmental shifts and enhance alveolar bone generation ability in osteoporosis and also could be expected to be applied in other biomedical fields associated with redox metabolism imbalance.



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