Immune checkpoint blockade (ICB) is without doubt one of the major strategies of tumor immunotherapy. Nonetheless, scientific information have proven that solely a portion of sufferers reply to ICB therapy. For the reason that tumor’s immune-suppressive setting performs a vital position in ICB remedy, discovering methods to successfully reshape this setting and enhance the response fee to ICB therapy has grow to be a key focus.
In a research revealed in Nature Nanotechnology, a analysis crew led by Prof. Wang Hai and Nie Guangjun from the Nationwide Middle for Nanoscience and Know-how of the Chinese language Academy of Sciences, collaborating with Prof. Ran Haitao from Chongqing Medical College, developed three varieties of nanostructures that mix L-phenylalanine with steel ions.
This revolutionary design can successfully reshape the tumor’s immune-suppressive setting and considerably improve the effectiveness of ICB immunotherapy.
Dendritic cells (DCs) play a vital position within the immune response in opposition to most cancers and infections. Mature DCs are key to activating tumor-specific immunity. Over the previous decade, two important activation modes have been found to induce DC maturation and set off the preliminary immune response: pathogen-associated molecular patterns (PAMPs) and damage-associated molecular patterns (DAMPs).
In addition to these hazard alerts, many capabilities of DCs, together with maturation, cytokine manufacturing, and migration, are additionally regulated by electrical alerts within the physique. The focus of potassium and calcium ions in DCs is intently associated to their maturation course of. Nonetheless, the motion of steel ions out and in of cells is strictly managed by ion channels, and there may be at the moment no efficient approach to activate these channels.
To activate the potassium ion channels on the DC membrane, the researchers used magnesium ions, iron ions, and zinc ions to coordinate with L-phenylalanine, creating three varieties of nanostructures: nanospheres (Ph–Mg), nanoneedles (Ph–Fe), and nanosheets (Ph–Zn). They discovered that these nanomaterials might enter cells by way of pinocytosis and caveolae-mediated endocytosis, however they had been unstable in acidic environments.
Laptop simulations indicated that the disassembled nanostructures would launch as dimers of steel ion-chelated L-phenylalanine. These dimers can bind to the S4 transmembrane area of the potassium ion channel (Kv1.3), inflicting the Kv1.3 construction to alter, widening the channel and activating the potassium ion channel.
The outflow of potassium ions, together with the inflow of calcium ions triggered by depolarization, prompts the NF–κB signaling pathway regulated by calmodulin, selling DC maturation and triggering the secretion of pro-inflammatory cytokines.
As well as, the researchers discovered that the uptake of nanostructures by DCs might induce the discharge of cathepsin B, which, together with the outflow of potassium ions, prompts the inflammasome pathway intently associated to DC maturation. They confirmed that nutrient restriction might improve the uptake of nanomaterials by DCs, upregulate calmodulin expression, and degrade IkBα, additional strengthening the NF–κB pathway.
“Currently, most protein regulation focuses on developing inhibitors. Finding ways to activate protein functions is still challenging,” stated Prof. Wang, the lead writer of this research. “Fortunately, we discovered that using nanomedicine can precisely activate the Kv1.3 potassium ion channel in DCs. This activation reverses the tumor’s immune-suppressive environment and enhances the effectiveness of immune checkpoint inhibitors.”
The researchers developed steel ion-amino acid nanostructures that may regulate ion channel buildings, selling the activation of the innate immune response by adjusting the potassium and calcium ions in DCs. This reshapes the tumor’s immune-suppressive setting, offering a brand new technique for bettering the effectiveness of ICB remedy.
Extra info:
Mixiao Tan et al, Steel-ion-chelating phenylalanine nanostructures reverse immune dysfunction and sensitize breast tumour to immune checkpoint blockade, Nature Nanotechnology (2024). DOI: 10.1038/s41565-024-01758-3
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Chinese language Academy of Sciences
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Utilizing steel ion-linked nanostructures to enhance immune response and increase breast tumor therapy (2024, August 29)
retrieved 29 August 2024
from https://phys.org/information/2024-08-metal-ion-linked-nanostructures-immune.html
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