pH-Dependent Grafting of Cancer Cells with Antigenic Epitopes Promotes Selective Antibody-Mediated Cytotoxicity

Abstract: A growing class of immunotherapeutic agents work by redirecting components of the immune system to recognize specific markers on the surface of cancer cells and initiate a selective immune response. However, such immunotherapeutic modalities will remain confined to a relatively small subgroup of patients until two major hurdles are overcome: (1) the specific targeting of cancer cells relative to healthy cells, and (2) the lack of common targetable tumor biomarkers among all patients. Here, we designed a unique… Show more

“…We opted to maintain the fluorescein hapten as it has been shown to successfully direct the recruitment of anti-FITC antibodies for killing of cancer cells. 30, 83 Additionally, to improve surface presentation of the hapten to anti-fluorescein antibodies, we positioned the fluorescein moiety to be displayed on the γ amine of an additional N -terminal lysine residue on P1 ( Figure 5B ). We directed our efforts of antibody recruitment towards E. faecalis , as P1fl demonstrated high levels of cell binding and has vital clinical applicability, being that some types of drug resistant E. faecalis can induce a vancomycin-resistant phenotype.…”

“…[14][15][16][17][18][19][20][21][22] One of the strategies being currently explored against cancer cells focuses on tagging cancer cell surfaces with small molecule haptens to promote their destruction by the immune system. [23][24][25][26][27][28][29] For example, Low and coworkers have developed anti-cancer agents, which have undergone clinical evaluation, that are composed of folate linked to the endogenous hapten, dinitrophenol (DNP), to destroy cancer cells displaying high levels of folate receptors. [30][31][32] Our group [33][34][35][36][37] and others 38,39 have developed several classes of molecules that label the surface of bacterial pathogens with small molecule haptens.…”

“…14–22 One of the strategies being currently explored against cancer cells focuses on tagging cancer cell surfaces with small molecule haptens to promote their destruction by the immune system. 23–29 For example, Low and coworkers have developed anti-cancer agents, which have undergone clinical evaluation, that are composed of folate linked to the endogenous hapten, dinitrophenol (DNP), to destroy cancer cells displaying high levels of folate receptors. 30–32…”

Immuno-targeting of Gram-positive Pathogens via a Cell Wall Binding Tick Antifreeze Protein

“…We opted to maintain the fluorescein hapten as it has been shown to successfully direct the recruitment of anti-FITC antibodies for killing of cancer cells. 30, 83 Additionally, to improve surface presentation of the hapten to anti-fluorescein antibodies, we positioned the fluorescein moiety to be displayed on the γ amine of an additional N -terminal lysine residue on P1 ( Figure 5B ). We directed our efforts of antibody recruitment towards E. faecalis , as P1fl demonstrated high levels of cell binding and has vital clinical applicability, being that some types of drug resistant E. faecalis can induce a vancomycin-resistant phenotype.…”

“…[14][15][16][17][18][19][20][21][22] One of the strategies being currently explored against cancer cells focuses on tagging cancer cell surfaces with small molecule haptens to promote their destruction by the immune system. [23][24][25][26][27][28][29] For example, Low and coworkers have developed anti-cancer agents, which have undergone clinical evaluation, that are composed of folate linked to the endogenous hapten, dinitrophenol (DNP), to destroy cancer cells displaying high levels of folate receptors. [30][31][32] Our group [33][34][35][36][37] and others 38,39 have developed several classes of molecules that label the surface of bacterial pathogens with small molecule haptens.…”

“…14–22 One of the strategies being currently explored against cancer cells focuses on tagging cancer cell surfaces with small molecule haptens to promote their destruction by the immune system. 23–29 For example, Low and coworkers have developed anti-cancer agents, which have undergone clinical evaluation, that are composed of folate linked to the endogenous hapten, dinitrophenol (DNP), to destroy cancer cells displaying high levels of folate receptors. 30–32…”

Immuno-targeting of Gram-positive Pathogens via a Cell Wall Binding Tick Antifreeze Protein