再設計された青色光活性化免疫細胞が固形腫瘍に浸透し死滅させる(Re-engineered, blue light-activated immune cells penetrate and kill solid tumors)

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2024-10-23 ペンシルベニア州立大学(PennState)

再設計された青色光活性化免疫細胞が固形腫瘍に浸透し死滅させる(Re-engineered, blue light-activated immune cells penetrate and kill solid tumors)

Credit: Courtsey of Dokholyan lab / Penn State. Creative Commons

ペンシルベニア州立大学の研究チームは、固形腫瘍に浸透し殺すことができる再設計された免疫細胞を開発しました。この細胞は青色光に反応するスイッチを持ち、光が当たると形状が変わり、腫瘍内部に侵入して腫瘍細胞を殺します。従来のCAR-T細胞療法が固形腫瘍に効果が薄い中、この新技術はその限界を克服する可能性があります。人間やマウスの腫瘍モデルでの実験で成功が確認されましたが、さらに研究が必要とされています。

<関連情報>

光遺伝学的に操作されたセプチン-7が腫瘍スフェロイドへの免疫細胞の浸潤を促進する Optogenetically engineered Septin-7 enhances immune cell infiltration of tumor spheroids

Jiaxing Chen, Brianna Hnath, Congzhou M. Sha, +2, and Nikolay V. Dokholyan
Proceedings of the National Academy of Sciences  Published:October 23, 2024
DOI:https://doi.org/10.1073/pnas.2405717121

Significance

Cancer is a major public health concern and the second-most common cause of death worldwide. Traditional approaches for cancer treatment have been frustrating as they only extend patients’ lifetime along with sacrificing patients’ life quality. During the last decade, chimeric antigen receptor (CAR)-T therapy has emerged and shown great success in certain hematological malignancies including lymphoblastic leukemia and B cell lymphoma. However, the efficacy of using cellular immunotherapy to treat solid tumors is limited due to the poor tumor infiltration of immune cells. Here, we enhance immune cell penetration into tumor spheroids by manipulating septin-7 function in live cells, which might improve cell-based immunotherapies against solid tumors.

Abstract

Chimeric antigen receptor T cell therapies have achieved great success in eradicating some liquid tumors, whereas the preclinical results in treating solid tumors have proven less decisive. One of the principal challenges in solid tumor treatment is the physical barrier composed of a dense extracellular matrix, which prevents immune cells from penetrating the tissue to attack intratumoral cancer cells. Here, we improve immune cell infiltration into solid tumors by manipulating septin-7 functions in cells. Using protein allosteric design, we reprogram the three-dimensional structure of septin-7 and insert a blue light-responsive light-oxygen-voltage-sensing domain 2 (LOV2), creating a light-controllable septin-7-LOV2 hybrid protein. Blue light inhibits septin-7 function in live cells, inducing extended cell protrusions and cell polarization, enhancing cell transmigration efficiency through confining spaces. We genetically edited human natural killer cell line (NK92) and mouse primary CD8+ T-cells expressing the engineered protein, and we demonstrated improved penetration and cytotoxicity against various tumor spheroid models. Our proposed strategy to enhance immune cell infiltration is compatible with other methodologies and therefore, could be used in combination to further improve cell-based immunotherapies against solid tumors.

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