Tumor immunomodulation by nanoparticle and focused ultrasound alters gut microbiome in a sexually dimorphic manner

Local immunomodulation with nanoparticles (NPs) and focused ultrasound (FUS) is recognized for triggering anti-tumor immunity. However, the impact of these tumor immunomodulations on sex-specific microbiome diversity at distant sites and their correlation with therapeutic effectiveness remains unkno...

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Published inTheranostics Vol. 15; no. 1; pp. 216 - 232
Main Authors Singh, Akansha, Chandrasekar, Sri Vidhya, Valappil, Vishnu Thayil, Scaria, Joy, Ranjan, Ashish
Format Journal Article
LanguageEnglish
Published Australia Ivyspring International Publisher 01.01.2025
Subjects
Animals
Calreticulin - metabolism
Cell Line, Tumor
Cytokines - metabolism
Female
Gastrointestinal Microbiome - immunology
Immunogenic Cell Death - drug effects
Immunomodulation
Male
Mice
Mice, Inbred C57BL
Mouth Neoplasms - immunology
Mouth Neoplasms - microbiology
Mouth Neoplasms - therapy
Nanoparticles - administration & dosage
Research Paper
Sex Characteristics
Gut Microbiome
Sexual dimorphism
Focused Ultrasound
Immunomodulation
Nanoparticle
Online AccessGet full text
ISSN1838-7640
1838-7640
DOI10.7150/thno.99664

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Abstract Local immunomodulation with nanoparticles (NPs) and focused ultrasound (FUS) is recognized for triggering anti-tumor immunity. However, the impact of these tumor immunomodulations on sex-specific microbiome diversity at distant sites and their correlation with therapeutic effectiveness remains unknown. Here, we conducted local intratumoral therapy using immunogenic cell death-enhancing Calreticulin-Nanoparticles (CRT-NPs) and FUS in male and female mice. We identified immune-related microbiome populations, aiming to translate our findings into clinical applications. CRT-NPs were synthesized by loading CRT-delivering plasmids into cationic liposomes. Local tumor therapy was performed using CRT-NP and FUS-based histotripsy (HT) on poorly immunogenic Mouse Oral Squamous Cell Carcinoma (MOC2) in the flank regions of male and female mice. Fecal samples were collected and analyzed before and three weeks post-treatment. The microbiome features were then correlated with immune cell dynamics within tumors and systemic cytokine responses to identify prognostic biomarkers in both male and female subjects. Intratumorally administered CRT-NP induced tumor remission and immune cell activation in both male and female mice, whereas HT was ineffective in males and showed efficacy only in females. and inversely correlated with tumor growth, while , , , and showed direct correlations with tumor growth. HT induced higher levels of in MOC2-bearing females, while males displayed increased and populations. Independent of sex, treatments promoting CD4+ T helper cells, functional CD8+ T cells, and total macrophage infiltration correlated with higher levels of , , , and . Alternatively, , , , and corresponded to poor treatment outcomes in both sexes. An enhanced abundance of , , , and in response to immunomodulatory therapies could serve as predictive biomarkers in a sex-independent manner. These findings could also be potentially extended to the realm of personalized interventions through fecal transplantations to reverse immunosuppressive phenotypes in males and improve patient outcomes.
AbstractList Background: Local immunomodulation with nanoparticles (NPs) and focused ultrasound (FUS) is recognized for triggering anti-tumor immunity. However, the impact of these tumor immunomodulations on sex-specific microbiome diversity at distant sites and their correlation with therapeutic effectiveness remains unknown. Here, we conducted local intratumoral therapy using immunogenic cell death-enhancing Calreticulin-Nanoparticles (CRT-NPs) and FUS in male and female mice. We identified immune-related microbiome populations, aiming to translate our findings into clinical applications. Methods: CRT-NPs were synthesized by loading CRT-delivering plasmids into cationic liposomes. Local tumor therapy was performed using CRT-NP and FUS-based histotripsy (HT) on poorly immunogenic Mouse Oral Squamous Cell Carcinoma (MOC2) in the flank regions of male and female mice. Fecal samples were collected and analyzed before and three weeks post-treatment. The microbiome features were then correlated with immune cell dynamics within tumors and systemic cytokine responses to identify prognostic biomarkers in both male and female subjects. Results: Intratumorally administered CRT-NP induced tumor remission and immune cell activation in both male and female mice, whereas HT was ineffective in males and showed efficacy only in females. Turicibacter and Peptococcus inversely correlated with tumor growth, while Enterorhabdus , Subdologranulum , Desulfovibrio , and Aldercreutzia-Asaccharobacter showed direct correlations with tumor growth. HT induced higher levels of Turicibacter in MOC2-bearing females, while males displayed increased Enterorhabdus and Streptococcus populations. Independent of sex, treatments promoting CD4+ T helper cells, functional CD8+ T cells, and total macrophage infiltration correlated with higher levels of Gastrophilales , Romboutsia , Turicibacter , and Peptococcus . Alternatively, Enterorhabdus , Desulfovibrio , Streptococcus , and Staphylococcus corresponded to poor treatment outcomes in both sexes. Conclusion: An enhanced abundance of Enterorhabdus , Desulfovibrio , Streptococcus , and Staphylococcus in response to immunomodulatory therapies could serve as predictive biomarkers in a sex-independent manner. These findings could also be potentially extended to the realm of personalized interventions through fecal transplantations to reverse immunosuppressive phenotypes in males and improve patient outcomes.
Background: Local immunomodulation with nanoparticles (NPs) and focused ultrasound (FUS) is recognized for triggering anti-tumor immunity. However, the impact of these tumor immunomodulations on sex-specific microbiome diversity at distant sites and their correlation with therapeutic effectiveness remains unknown. Here, we conducted local intratumoral therapy using immunogenic cell death-enhancing Calreticulin-Nanoparticles (CRT-NPs) and FUS in male and female mice. We identified immune-related microbiome populations, aiming to translate our findings into clinical applications. Methods: CRT-NPs were synthesized by loading CRT-delivering plasmids into cationic liposomes. Local tumor therapy was performed using CRT-NP and FUS-based histotripsy (HT) on poorly immunogenic Mouse Oral Squamous Cell Carcinoma (MOC2) in the flank regions of male and female mice. Fecal samples were collected and analyzed before and three weeks post-treatment. The microbiome features were then correlated with immune cell dynamics within tumors and systemic cytokine responses to identify prognostic biomarkers in both male and female subjects. Results: Intratumorally administered CRT-NP induced tumor remission and immune cell activation in both male and female mice, whereas HT was ineffective in males and showed efficacy only in females. Turicibacter and Peptococcus inversely correlated with tumor growth, while Enterorhabdus, Subdologranulum, Desulfovibrio, and Aldercreutzia-Asaccharobacter showed direct correlations with tumor growth. HT induced higher levels of Turicibacter in MOC2-bearing females, while males displayed increased Enterorhabdus and Streptococcus populations. Independent of sex, treatments promoting CD4+ T helper cells, functional CD8+ T cells, and total macrophage infiltration correlated with higher levels of Gastrophilales, Romboutsia, Turicibacter, and Peptococcus. Alternatively, Enterorhabdus, Desulfovibrio, Streptococcus, and Staphylococcus corresponded to poor treatment outcomes in both sexes. Conclusion: An enhanced abundance of Enterorhabdus, Desulfovibrio, Streptococcus, and Staphylococcus in response to immunomodulatory therapies could serve as predictive biomarkers in a sex-independent manner. These findings could also be potentially extended to the realm of personalized interventions through fecal transplantations to reverse immunosuppressive phenotypes in males and improve patient outcomes.Background: Local immunomodulation with nanoparticles (NPs) and focused ultrasound (FUS) is recognized for triggering anti-tumor immunity. However, the impact of these tumor immunomodulations on sex-specific microbiome diversity at distant sites and their correlation with therapeutic effectiveness remains unknown. Here, we conducted local intratumoral therapy using immunogenic cell death-enhancing Calreticulin-Nanoparticles (CRT-NPs) and FUS in male and female mice. We identified immune-related microbiome populations, aiming to translate our findings into clinical applications. Methods: CRT-NPs were synthesized by loading CRT-delivering plasmids into cationic liposomes. Local tumor therapy was performed using CRT-NP and FUS-based histotripsy (HT) on poorly immunogenic Mouse Oral Squamous Cell Carcinoma (MOC2) in the flank regions of male and female mice. Fecal samples were collected and analyzed before and three weeks post-treatment. The microbiome features were then correlated with immune cell dynamics within tumors and systemic cytokine responses to identify prognostic biomarkers in both male and female subjects. Results: Intratumorally administered CRT-NP induced tumor remission and immune cell activation in both male and female mice, whereas HT was ineffective in males and showed efficacy only in females. Turicibacter and Peptococcus inversely correlated with tumor growth, while Enterorhabdus, Subdologranulum, Desulfovibrio, and Aldercreutzia-Asaccharobacter showed direct correlations with tumor growth. HT induced higher levels of Turicibacter in MOC2-bearing females, while males displayed increased Enterorhabdus and Streptococcus populations. Independent of sex, treatments promoting CD4+ T helper cells, functional CD8+ T cells, and total macrophage infiltration correlated with higher levels of Gastrophilales, Romboutsia, Turicibacter, and Peptococcus. Alternatively, Enterorhabdus, Desulfovibrio, Streptococcus, and Staphylococcus corresponded to poor treatment outcomes in both sexes. Conclusion: An enhanced abundance of Enterorhabdus, Desulfovibrio, Streptococcus, and Staphylococcus in response to immunomodulatory therapies could serve as predictive biomarkers in a sex-independent manner. These findings could also be potentially extended to the realm of personalized interventions through fecal transplantations to reverse immunosuppressive phenotypes in males and improve patient outcomes.
Local immunomodulation with nanoparticles (NPs) and focused ultrasound (FUS) is recognized for triggering anti-tumor immunity. However, the impact of these tumor immunomodulations on sex-specific microbiome diversity at distant sites and their correlation with therapeutic effectiveness remains unknown. Here, we conducted local intratumoral therapy using immunogenic cell death-enhancing Calreticulin-Nanoparticles (CRT-NPs) and FUS in male and female mice. We identified immune-related microbiome populations, aiming to translate our findings into clinical applications. CRT-NPs were synthesized by loading CRT-delivering plasmids into cationic liposomes. Local tumor therapy was performed using CRT-NP and FUS-based histotripsy (HT) on poorly immunogenic Mouse Oral Squamous Cell Carcinoma (MOC2) in the flank regions of male and female mice. Fecal samples were collected and analyzed before and three weeks post-treatment. The microbiome features were then correlated with immune cell dynamics within tumors and systemic cytokine responses to identify prognostic biomarkers in both male and female subjects. Intratumorally administered CRT-NP induced tumor remission and immune cell activation in both male and female mice, whereas HT was ineffective in males and showed efficacy only in females. and inversely correlated with tumor growth, while , , , and showed direct correlations with tumor growth. HT induced higher levels of in MOC2-bearing females, while males displayed increased and populations. Independent of sex, treatments promoting CD4+ T helper cells, functional CD8+ T cells, and total macrophage infiltration correlated with higher levels of , , , and . Alternatively, , , , and corresponded to poor treatment outcomes in both sexes. An enhanced abundance of , , , and in response to immunomodulatory therapies could serve as predictive biomarkers in a sex-independent manner. These findings could also be potentially extended to the realm of personalized interventions through fecal transplantations to reverse immunosuppressive phenotypes in males and improve patient outcomes.
Author Ranjan, Ashish
Singh, Akansha
Chandrasekar, Sri Vidhya
Valappil, Vishnu Thayil
Scaria, Joy
AuthorAffiliation 2 Department of Veterinary Pathobiology, Oklahoma State University, Stillwater, OK 74078, USA
1 Department of Radiation Oncology, UT Southwestern Medical Center, Dallas, TX 75390, USA
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Issue 1
Keywords Gut Microbiome
Sexual dimorphism
Focused Ultrasound
Immunomodulation
Nanoparticle
Language English
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Snippet Local immunomodulation with nanoparticles (NPs) and focused ultrasound (FUS) is recognized for triggering anti-tumor immunity. However, the impact of these...
Background: Local immunomodulation with nanoparticles (NPs) and focused ultrasound (FUS) is recognized for triggering anti-tumor immunity. However, the impact...
Background: Local immunomodulation with nanoparticles (NPs) and focused ultrasound (FUS) is recognized for triggering anti-tumor immunity. However, the impact...
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StartPage 216
SubjectTerms Animals
Calreticulin - metabolism
Cell Line, Tumor
Cytokines - metabolism
Female
Gastrointestinal Microbiome - immunology
Immunogenic Cell Death - drug effects
Immunomodulation
Male
Mice
Mice, Inbred C57BL
Mouth Neoplasms - immunology
Mouth Neoplasms - microbiology
Mouth Neoplasms - therapy
Nanoparticles - administration & dosage
Research Paper
Sex Characteristics
Title Tumor immunomodulation by nanoparticle and focused ultrasound alters gut microbiome in a sexually dimorphic manner
URI https://www.ncbi.nlm.nih.gov/pubmed/39744230
https://www.proquest.com/docview/3150838061
https://pubmed.ncbi.nlm.nih.gov/PMC11667224
Volume 15
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