#cytokine — Public Fediverse posts

A single sauna session boosts immune cells within minutes

New research reveals how a brief Finnish sauna session mobilizes immune defenses within minutes, offering fresh clues into…
#NewsBeep #News #Health #AU #Australia #CardiovascularDisease #Cell #Cytokine #Cytokines #Dementia #Ear #GlobalHealth #heat #heatstress #Hemoglobin #Lymphocyte #neutrophils #Psychosis #research #Respiratory #stress
https://www.newsbeep.com/au/612848/

A single sauna session boosts immune cells within minutes

New research reveals how a brief Finnish sauna session mobilizes immune defenses within minutes, offering fresh clues into…
#NewsBeep #News #Health #AU #Australia #CardiovascularDisease #Cell #Cytokine #Cytokines #Dementia #Ear #GlobalHealth #heat #heatstress #Hemoglobin #Lymphocyte #neutrophils #Psychosis #research #Respiratory #stress
https://www.newsbeep.com/au/612848/

https://www.europesays.com/ie/381237/ Can eating almonds reduce inflammation in obesity? #Adipose #AntiInflammatory #appetite #CardiovascularDisease #Cell #Chronic #Cookies #Cytokine #Cytokines #diabetes #diet #Éire #Glucose #Health #IE #immunity #inflammation #Insulin #InsulinResistance #Interleukin #Ireland #Nutrients #Obesity #Protein #Type2Diabetes #Vegetables #VitaminE #WeightLoss

Compartmentalized #cytokine #networks and systemic immune remodeling in #bovine mammary #H5N1 #infection, https://etidiohnew.blogspot.com/2026/03/compartmentalized-cytokine-networks-and.html

Study reveals coffee triggers distinct cytokine responses compared with pure caffeine

A controlled human study reveals that coffee’s complex chemical matrix may shape immune responses differently than pure caffeine,…
#NewsBeep #News #Health #AU #Australia #Biomarker #Caffeine #Coffee #Cytokine #Cytokines #Interferon #Metabolism #Nutrition #Pharmacokinetics #Physiology #publichealth #research
https://www.newsbeep.com/au/489828/

Study reveals coffee triggers distinct cytokine responses compared with pure caffeine

A controlled human study reveals that coffee’s complex chemical matrix may shape immune responses differently than pure caffeine,…
#NewsBeep #News #Health #AU #Australia #Biomarker #Caffeine #Coffee #Cytokine #Cytokines #Interferon #Metabolism #Nutrition #Pharmacokinetics #Physiology #publichealth #research
https://www.newsbeep.com/au/489828/

Study reveals coffee triggers distinct cytokine responses compared with pure caffeine

A controlled human study reveals that coffee’s complex chemical matrix may shape immune responses differently than pure caffeine,…
#NewsBeep #News #Health #AU #Australia #Biomarker #Caffeine #Coffee #Cytokine #Cytokines #Interferon #Metabolism #Nutrition #Pharmacokinetics #Physiology #publichealth #research
https://www.newsbeep.com/au/489828/

Study reveals coffee triggers distinct cytokine responses compared with pure caffeine

A controlled human study reveals that coffee’s complex chemical matrix may shape immune responses differently than pure caffeine,…
#NewsBeep #News #Health #AU #Australia #Biomarker #Caffeine #Coffee #Cytokine #Cytokines #Interferon #Metabolism #Nutrition #Pharmacokinetics #Physiology #publichealth #research
https://www.newsbeep.com/au/489828/

A new toolkit named #CyCLoPs (cytokine cellular locating platforms) enables the precise tagging and visualization of cells that receive #cytokine signals, illuminating previously invisible #immune communication pathways.
#Immunology #MolecularBiology #sflorg
https://www.sflorg.com/2026/02/imgy02112601.html

https://www.europesays.com/ie/228642/ Scientists outline how organ rejuvenation strategies could solve the donor shortage #Aging #AntiInflammatory #Antioxidant #blood #Cell #CellDeath #Cytokine #DNA #Drugs #Edema #Éire #fibrosis #Genes #Health #IE #inflammation #Ion #Ireland #Liver #Lungs #Metabolism #Metformin #Mitochondria #Nutrients #Organelle #OxidativeStress #Oxygen #pH #Preclinical #Stress #Transplant #Vascular

Poor dietary iron weakens lung memory T cells after flu infection

Even when immune memory cells form in the lung after influenza infection, insufficient dietary iron leaves them less…
#NewsBeep #News #Health #Anemia #Antigen #AU #Australia #Blood #CD4 #Cell #Cytokine #Cytokines #Cytometry #diet #Digestion #Flowcytometry #flu #immunity #Immunology #influenza #irondeficiency #Liver #Lungs #Nutrition #Proliferation #Receptor
https://www.newsbeep.com/au/335958/

#Cytokine Regulation of #Human #Antibody Responses to #Influenza #Vaccines, https://etidiohnew.blogspot.com/2025/08/cytokine-regulation-of-human-antibody.html

Mediterranean and vegetarian diets boost heart health by improving novel CVD markers https://www.diningandcooking.com/2149059/mediterranean-and-vegetarian-diets-boost-heart-health-by-improving-novel-cvd-markers/ #Apolipoprotein #blood #carbohydrate #Cardiology #CardiovascularDisease #cholesterol #Cytokine #diet #heart #HeartDisease #Interleukin #lipids #Lipoprotein #Meat #Mediterranean #MediterraneanDiet #MediterraneanVeganDiet #MediterraneanVegetarianRecipes #metabolism #Mortality #nutrition #VeganMediterraneanDiet #Vegetarian #VegetarianMediterraneanRecipes

Reports of diverse stoichiometries have complicated our understanding of the complex between ALK kinase and its #cytokine ligand ALKAL2. @janfelix &co reanalyze #cryoEM data to clarify the situation @PLOSBiology https://plos.io/4lvRfvu

Mediterranean diet lowers COVID-19 risk, but its effect on symptoms and severity remains uncertain https://www.diningandcooking.com/1970743/mediterranean-diet-lowers-covid-19-risk-but-its-effect-on-symptoms-and-severity-remains-uncertain/ ##COVID19 ##inflammation #coronavirus #cough #Cytokine #Cytokines #diarrhea #diet #Fever #Fish #food #Frequency #Immunomodulatory #Mediterranean #MediterraneanDiet #Mortality #NasalCongestion #nausea #OliveOil #oxygen #pandemic #SARS #SARSCoV2 #SoreThroat #Throat #VitaminC

The Novel #H10N3 Avian #Influenza Virus Triggers Lethal #Cytokine #Storm by Activating Multiple Forms of Programmed Cell Death in Mammalian #Lungs, https://etidiohnew.blogspot.com/2025/03/the-novel-h10n3-avian-influenza-virus.html

Modulation of #cytokeratin and #cytokine/chemokine expression following #influenza virus infection of differentiated #human #tonsillar epithelial cells, https://etidiohnew.blogspot.com/2025/01/modulation-of-cytokeratin-and.html

Blocking cytokine signaling can be an effective therapy for a range of different diseases. @m_elgamacy &co use computational protein design to develop novel #cytokine receptor antagonists, showing G-CSFR inhibition in a cell model of AML #PLOSBiology https://plos.io/41ePP0G

#Age-dependent #Powassan virus #lethality is linked to glial cell activation & divergent neuroinflammatory #cytokine #responses in a murine model, J Virol.: https://journals.asm.org/doi/full/10.1128/jvi.00560-24?af=R

These findings correlate age-dependent #CNS cytokine responses & viral loads with POWV lethality & suggest potential neuroinflammatory therapeutic targets. Our results establish the age-dependent lethality of POWV in a murine #model that mirrors human POWV severity and long-term CNS pathology in the elderly.

It's #phage week
@PLOSBiology!

First up, Ellinor Alseth, Edze Westra and colleagues describe the impact of phage & phage resistance on microbial community dynamics
https://plos.io/49OSE9i

Then Jennifer Bomberger and colleagues show that #lytic phages induce #cytokine release from human respiratory epithelium in a cool cross-kingdom interaction
https://plos.io/44dOUgu
♥️♥️

#LoveVirology

#Cannabinoids as novel #AntiInflammatory drugs

by Prakash Nagarkatti, et al.
October, 2009

Abstract:

"Cannabinoids are a group of compounds that mediate their effects through cannabinoid receptors. The discovery of Δ9-tetrahydrocannabinol (#THC) as the major psychoactive principle in marijuana, as well as the identification of #cannabinoid receptors and their endogenous ligands, has led to a significant growth in research aimed at understanding the physiological functions of cannabinoids. Cannabinoid receptors include CB1, which is predominantly expressed in the brain, and CB2, which is primarily found on the cells of the immune system. The fact that both CB1 and CB2 receptors have been found on #immune cells suggests that cannabinoids play an important role in the regulation of the immune system. Recent studies demonstrated that administration of THC into mice triggered marked apoptosis in T cells and dendritic cells, resulting in immunosuppression. In addition, several studies showed that cannabinoids downregulate #cytokine and chemokine production and, in some models, upregulate T-regulatory cells (Tregs) as a mechanism to suppress #inflammatory responses. The #endocannabinoid system is also involved in #immunoregulation. For example, administration of endocannabinoids or use of inhibitors of enzymes that break down the endocannabinoids, led to immunosuppression and recovery from immune-mediated injury to organs such as the liver. Manipulation of endocannabinoids and/or use of exogenous cannabinoids in vivo can constitute a potent treatment modality against inflammatory disorders. This review will focus on the potential use of cannabinoids as a new class of anti-inflammatory agents against a number of inflammatory and autoimmune diseases that are primarily triggered by activated T cells or other cellular immune components."

Executive summary

- Cannabinoids, the active components of #CannabisSativa, and endogenous cannabinoids mediate their effects through activation of specific cannabinoid receptors known as cannabinoid receptor 1 and 2 (CB1 and CB2).

- The cannabinoid system has been shown both in vivo and in vitro to be involved in regulating the immune system through its immunomodulatory properties.

- Cannabinoids suppress inflammatory response and subsequently attenuate disease symptoms. This property of cannabinoids is mediated through multiple pathways such as induction of apoptosis in activated immune cells, suppression of cytokines and chemokines at inflammatory sites and upregulation of FoxP3+ regulatory T cells.

- Cannabinoids have been tested in several experimental models of autoimmune disorders such as #MultipleSclerosis, #RheumatoidArthritis, #colitis and #hepatitis and have been shown to protect the host from the pathogenesis through induction of multiple anti-inflammatory pathways.

- Cannabinoids may also be beneficial in certain types of #cancers that are triggered by #ChronicInflammation In such instances, cannabinoids can either directly inhibit tumor growth or suppress inflammation and tumor angiogenesis.

https://www.ncbi.nlm.nih.gov/pmc/articles/PMC2828614/

Para-infectious #brain #injury in #COVID19 persists at follow-up despite attenuated #cytokine and #autoantibody responses https://www.nature.com/articles/s41467-023-42320-4

Chemotherapy awakens dormant #cancer. #Tumor stromal organoid & murine #BreastCancer model show that #chemotherapy injures stromal cells; this injury in turn invokes proinflammatory #cytokine signaling and can awaken dormant cancer cells #PLOSBiology https://plos.io/3RjsGoQ

IL-6 is such a fascinating cytokine.

Here it is modulating different dendritic cell subsets
@JExpMed
#immunology #DC #cytokine #science
https://rupress.org/jem/article/220/10/e20221757/214227/IL-6-selectively-suppresses-cDC1-specification-via?guestAccessKey=48cccc06-d788-423c-889f-51498d95a918&utm_source=NewJournalContent%27&%27utm_campaign%27=%27JEM%27&%27utm_medium%27=%27Email&nbd=28080031447&nbd_source=campaigner&_ccCt=g843-2ph4e3-co3ru7-cwe4ixj2

@PLOSBiology Nice excerpt:

Two pieces of data and a pair of 30-year-old papers jump started the project. The first was an old serum #cytokine screen. Within it, Leukemia Inhibitory Factor (LIF) was a stand-out cytokine upregulated in the tumor model. [...] It felt like a great hook, but I needed something to tie it together... Thirty years ago, they discovered that LIF affected #hematopoiesis, but not in the bone marrow where I had been looking with my single cell RNA-sequencing data.

Rare myocarditis after COVID shots: Study rules out some common culprits - Enlarge / Heart scan. (credit: Getty | BSIP)

The mRNA-based CO... - https://arstechnica.com/?p=1937872 #vaccinesideeffects #covid-19vaccine #immuneresponses #inflammation #mrnavaccines #pericarditis #myocarditis #antibodies #autoimmune #immunology #youngmales #maleteens #covid-19 #cytokine #science #vaccine #heart #teens #boys #mrna

'We now provide compelling evidence that in hypoxic conditions, an autocrine IL-24/IL-24-receptor signaling/STAT3 loop is induced, which then sustains the HIF1α-mediated expression of epidermal IL-24. In turn, IL-24 acts in an autocrine and paracrine fashion to coordinate re-epithelialization, re-vascularization, dermal fibroblast proliferation, and collagen deposition to restore the damaged tissue to homeostasis.'
Liu, @mucida, Fuchs et al

#WoundHealing #Immunology #Cytokine #InnateImmunity

https://www.cell.com/cell/fulltext/S0092-8674(23)00328-8

#Glyphosate infiltrates the brain and increases pro-#inflammatory #cytokine TNFα: implications for #neurodegenerative disorders

Published: 28 July 2022

"#Herbicides are #environmental contaminants that have gained much attention due to the potential hazards they pose to human health. Glyphosate, the active ingredient in many commercial herbicides, is the most heavily applied herbicide worldwide. The recent rise in glyphosate application to corn and soy crops correlates positively with increased death rates due to #Alzheimers disease and other #neurodegenerative disorders. Glyphosate has been shown to cross the blood–brain barrier in in vitro models, but has yet to be verified in vivo. Additionally, reports have shown that glyphosate exposure increases pro-inflammatory cytokines in blood plasma, particularly TNFα.

"Collectively, these results show for the first time that glyphosate infiltrates the #brain, elevates both the expression of TNFα and soluble Aβ, and disrupts the transcriptome in a dose-dependent manner, suggesting that exposure to this herbicide may have detrimental outcomes regarding the health of the general population."
#RoundUp #Monsanto #Poison #EPAFail #EPA #Bayer #BigAg

https://jneuroinflammation.biomedcentral.com/articles/10.1186/s12974-022-02544-5

#COVID news 3/31/23

"#Dexamethasone has been shown to help treat severe acute COVID infections and now we know how. A new study shows that dexamethasone affects ion channel-mediated immune cell function, including #cytokine production, to decrease risk of cytokine storm and death"

4/n

https://drruth.substack.com/p/covid-news-and-more-33123

"With IL-8-humanized mouse strain, we demonstrate that IL-8-producing CD4+ T, myeloid, and tumor cells orchestrate myeloid-derived suppressor cell infiltration and angiogenesis, which results in enhanced tumor growth but reduced ICB efficacy."

#Immunology #Immunotherapy #cytokine

https://www.cell.com/cancer-cell/fulltext/S1535-6108(23)00077-6?dgcid=raven_jbs_aip_email

"The lack of appropriate neutralizing antibodies recognizing IL-2RG has made it difficult to thoroughly interrogate the role of γc cytokines in inflammatory and autoimmune disease settings. Here, we generated a γc cytokine receptor antibody, REGN7257, to determine whether γc cytokines might be targeted for T cell–mediated disease prevention and treatment."

#immunology #cytokine #Monoclonal

https://www.science.org/doi/10.1126/scitranslmed.abo0205

Sepsis is one of the most expensive medical conditions in the world: Research clarifies how it can lead to cell death

by Alexander (Sasha) Poltorak and Hayley Muendlein,

https://medicalxpress.com/news/2022-12-sepsis-expensive-medical-conditions-world.html?utm_source=join1440&utm_medium=email&utm_placement=newsletter

#medicine #sepsis #infection #bacteria #cytokine

"We observed a significant increase in the expression of IL-31RA, but not its cognate ligand IL-31 during house dust mite- and Schistosoma mansoni soluble egg antigen-induced allergic asthma. In support of this, IFN-γ and Th2 cytokines, IL-4 and IL-13, upregulated IL-31RA but not IL-31 in airway smooth muscle cells (ASMC). Importantly, the loss of IL-31RA attenuated AHR but had no effects on inflammation and goblet cell hyperplasia in allergic asthma or mice treated with IL-13 or IFNγ."

#Immunology #Asthma #Preprint #cytokine

https://www.biorxiv.org/content/10.1101/2022.12.15.520615v1

The microenvironment of the invasive margin of @liver metastases.

There was no relevant Th1, Th2, or Th17 #cytokine signature present in any of the samples. However, the authors did find that @chemokine s and @macrophage -related cytokines were significantly increased at the invasive margin. Chemokines are molecules that help to attract @immune cells to the area, and macrophage-related cytokines are molecules that help to regulate the activity of #macrophages, which are a type of immune cell.

In other words, the tumor cells are using the host's immune cells to help them grow and spread.

the effects of CCR5 blockade on the @tissue level.

Tumor @cell death and a specific pattern of #cytokine and #chemokine modulation are observed in the #ExplantModel and in @tumor biopsies from a #ClinicalTrial. Macrophages are the key for these anti-tumoral effects, as they produce IFNs and reactive oxygen species which cause tumor cell death.

In other words, the tumor cells are using the host's immune cells to help them grow and spread.

the effects of CCR5 blockade on the @tissue level.

Tumor @cell death and a specific pattern of #cytokine and #chemokine modulation are observed in the #ExplantModel and in @tumor biopsies from a #ClinicalTrial. Macrophages are the key for these anti-tumoral effects, as they produce IFNs and reactive oxygen species which cause tumor cell death.

In other words, the tumor cells are using the host's immune cells to help them grow and spread.

the effects of CCR5 blockade on the @tissue level.

Tumor @cell death and a specific pattern of #cytokine and #chemokine modulation are observed in the #ExplantModel and in @tumor biopsies from a #ClinicalTrial. Macrophages are the key for these anti-tumoral effects, as they produce IFNs and reactive oxygen species which cause tumor cell death.

In other words, the tumor cells are using the host's immune cells to help them grow and spread.

the effects of CCR5 blockade on the @tissue level.

Tumor @cell death and a specific pattern of #cytokine and #chemokine modulation are observed in the #ExplantModel and in @tumor biopsies from a #ClinicalTrial. Macrophages are the key for these anti-tumoral effects, as they produce IFNs and reactive oxygen species which cause tumor cell death.

@explainpaper

Tumoral Immune Cell Exploitation in Colorectal Cancer Metastases Can Be Targeted Effectively by Anti-CCR5 Therapy in Cancer Patients

Niels Halama, Inka Zoernig, Anna Berthel, Christoph Kahlert, Fee Klupp, Meggy Suarez-Carmona,Thomas Suetterlin, Karsten Brand, Juergen Krauss, Felix Lasitschka, Tina Lerchl, Claudia Luckner-Minden, Alexis Ulrich, Moritz Koch, Juergen Weitz, Martin Schneider, Markus W. Buechler, Laurence Zitvogel,
Thomas Herrmann, Axel Benner, Christina Kunz, Stephan Luecke, Christoph Springfeld, Niels Grabe, Christine S. Falk, and Dirk Jaeger

Targeting Tumor-Promoting Microenvironment Through CCR5 Blockade in #Colorectal #Cancer #Liver Metastases

#Cancer progression is a process in which cancer cells and #immune cells interact with each other in a way that can lead to the growth and spread of cancer. In #colorectal cancer, when the cancer has spread to other parts of the body, it is called #metastasis and it is very difficult to treat. Treatments such as PD-1/PD-L1 blockade and #chemokine modulation have been successful in modifying the interactions between the immune system and cancer, leading to the rejection or suppression of progression. Cancer cells can also alter the immune microenvironment, leading to #immunosuppression and #immune evasion. In this research paper, the authors studied the microenvironment in #CRC #liver metastases and identified a network of #tumor cells and immune cells that exploit the CCL5-CCR5 axis. They then investigated and characterized the effects of blocking the CCL5-CCR5 axis.

the microenvironment of #liver metastases of #colorectal cancer (#CRC).

the environment induces migration of T lymphocytes, which produce a #cytokine called CCL5. This CCL5 then supports tumor growth and spread by influencing macrophages and #tumor cells. The environment is immunosuppressive and the tumor cells are exploiting the host's #immune cells to their advantage. In other words, the tumor cells are using the host's immune cells to help them grow and spread.

the effects of CCR5 blockade on the #tissue level.

Tumor #cell death and a specific pattern of #cytokine and #chemokine modulation are observed in the #ExplantModel and in #tumor biopsies from a #ClinicalTrial. Macrophages are the key for these anti-tumoral effects, as they produce IFNs and reactive oxygen species which cause tumor cell death. #CCR5 blockade induces a phenotypic shift in the macrophages, which is referred to as a switch from an M2 to an M1 phenotype. This repolarization also reduces levels of CD163+ cells, reshaping the #myeloid cell composition in the microenvironment. The influx of new effector cells due to CCR5 inhibition can shift the effects of CCL5 towards beneficial effects, such as reduction of #immunosuppression , #angiogenesis, and #chemotherapy resistance.

The microenvironment of the invasive margin of #liver metastases.

There was no relevant Th1, Th2, or Th17 #cytokine signature present in any of the samples. However, the authors did find that #chemokines and #macrophage-related cytokines were significantly increased at the invasive margin. Chemokines are molecules that help to attract #immune cells to the area, and macrophage-related cytokines are molecules that help to regulate the activity of #macrophages, which are a type of immune cell. 98% of the CD3+ #lymphocyte s in the resection specimens were positive for PD-1, which is a molecule that helps to regulate the activity of the immune system.

#CCL5 is a protein produced by T cells, which are a type of white blood cell. #CCR5 is a receptor found on metastatic tumor cells, which are cancer cells that have spread from the primary #tumor to other parts of the body. In this research paper, it was found that CCL5 has #pleiotropic tumor-promoting effects on #tumor cells and tumor-associated #macrophage s. This means that CCL5 has multiple effects on both the cancer cells and the macrophages, which are a type of white #blood #cell, that are associated with the #tumor. CCL5 was produced mainly by T cells located at the invasive margin and #peritumoral stroma of metastases, and that CCR5 was dominantly expressed by metastatic tumor cells. CCL5 also had effects on tumor #CellProliferation, invasive tumor #CellBehavior, and increased production of matrix #metalloproteinas es by tumor-associated macrophages. Finally, they found that CCR5 inhibition had an effect on key molecules of #epithelial to #mesenchymal transition ( #EMT ).

The researchers wanted to test the effects of #CCR5 blockade, which is a way of blocking the CCR5 receptor on cells, using a drug called maraviroc. They used human #tumor #explantmodel s, which are samples of #tissue from advanced #CRC patients with #liver metastases. Maraviroc led to morphologically overt tumor #CellDeath in the #explants, which means that the tumor cells died and changed in appearance. The researchers then tested the hypothesis that #macrophage s, (type of white blood cell), were required for the tumor cell death-inducing effects of CCR5 blockade. They used clodronate #liposome s to deplete CD163+ TAMs, ( #macrophage s associated with tumors) and found that combining clodronate with CCR5 inhibition abrogated the immediate tumor cell death-inducing effects of #CCR5 inhibition. This confirmed the role of macrophages in this process. IFN-g induced stromal CD163+ #macrophage #cell death and led to a reconfiguration of the #myeloid cell compartment. Inhibition of macrophage-derived reactive oxygen species could partially block the anti-tumoral effects of CCR5 inhibition. Finally, they tested the effects of CCL5/CCR5 inhibition and found that both a CCL5 neutralizing antibody and a CCR5 blocking #antibody had similar functional effects to maraviroc.

A #ClinicalTrial (MARACON) was conducted to test the effects of a drug called maraviroc on patients with advanced-stage #metastatic colorectal #cancer. The #trial involved taking biopsies of the patients before and after treatment with maraviroc, and the results showed that the drug had beneficial effects on the tumor-promoting #microenvironment and led to objective clinical responses. These responses included induction of central #TumorNecrosis, reduction of tumor cell death, and reduction of key #cytokine s and growth factors that promote tumor growth. The drug was also found to be very well tolerated, with mild elevation of #liver enzymes being the most common side effect. Finally, the trial showed that partial responses were achieved in patients with previously refractory disease.

CCR5 blockade, is a type of #therapy used to treat #cancer.

The MARACON clinical trial, showed that CCR5 blockade had a positive effect on the tumor microenvironment and led to a higher response rate in subsequent chemotherapies. The authors suggest that this effect is not limited to the #liver metastases, but is a systemic feature. They also suggest that the local presence of multiple layers of #immune subversion in cancers depends on the individual tissue, #treatment, tumor type, and the difference between primary #tumor and metastatic lesion. The authors also found that the results of the #ClinicalTrial were in line with the results of a fully human organotypic tumor #ExplantModel, which is a simple model with a straightforward approach. The authors also note that the survival data from the trial is not conclusive due to the limited number of patients, but that the objective treatment responses are very encouraging. They suggest that CCR5 blockade may be a promising approach and needs to be evaluated further scientifically and clinically.

@explainpaper

Tumoral Immune Cell Exploitation in Colorectal Cancer Metastases Can Be Targeted Effectively by Anti-CCR5 Therapy in Cancer Patients

Niels Halama, Inka Zoernig, Anna Berthel, Christoph Kahlert, Fee Klupp, Meggy Suarez-Carmona,Thomas Suetterlin, Karsten Brand, Juergen Krauss, Felix Lasitschka, Tina Lerchl, Claudia Luckner-Minden, Alexis Ulrich, Moritz Koch, Juergen Weitz, Martin Schneider, Markus W. Buechler, Laurence Zitvogel,
Thomas Herrmann, Axel Benner, Christina Kunz, Stephan Luecke, Christoph Springfeld, Niels Grabe, Christine S. Falk, and Dirk Jaeger

Targeting Tumor-Promoting Microenvironment Through CCR5 Blockade in #Colorectal #Cancer #Liver Metastases

#Cancer progression is a process in which cancer cells and #immune cells interact with each other in a way that can lead to the growth and spread of cancer. In #colorectal cancer, when the cancer has spread to other parts of the body, it is called #metastasis and it is very difficult to treat. Treatments such as PD-1/PD-L1 blockade and #chemokine modulation have been successful in modifying the interactions between the immune system and cancer, leading to the rejection or suppression of progression. Cancer cells can also alter the immune microenvironment, leading to #immunosuppression and #immune evasion. In this research paper, the authors studied the microenvironment in #CRC #liver metastases and identified a network of #tumor cells and immune cells that exploit the CCL5-CCR5 axis. They then investigated and characterized the effects of blocking the CCL5-CCR5 axis.

the microenvironment of #liver metastases of #colorectal cancer (#CRC).

the environment induces migration of T lymphocytes, which produce a #cytokine called CCL5. This CCL5 then supports tumor growth and spread by influencing macrophages and #tumor cells. The environment is immunosuppressive and the tumor cells are exploiting the host's #immune cells to their advantage. In other words, the tumor cells are using the host's immune cells to help them grow and spread.

the effects of CCR5 blockade on the #tissue level.

Tumor #cell death and a specific pattern of #cytokine and #chemokine modulation are observed in the #ExplantModel and in #tumor biopsies from a #ClinicalTrial. Macrophages are the key for these anti-tumoral effects, as they produce IFNs and reactive oxygen species which cause tumor cell death. #CCR5 blockade induces a phenotypic shift in the macrophages, which is referred to as a switch from an M2 to an M1 phenotype. This repolarization also reduces levels of CD163+ cells, reshaping the #myeloid cell composition in the microenvironment. The influx of new effector cells due to CCR5 inhibition can shift the effects of CCL5 towards beneficial effects, such as reduction of #immunosuppression , #angiogenesis, and #chemotherapy resistance.

The microenvironment of the invasive margin of #liver metastases.

There was no relevant Th1, Th2, or Th17 #cytokine signature present in any of the samples. However, the authors did find that #chemokines and #macrophage-related cytokines were significantly increased at the invasive margin. Chemokines are molecules that help to attract #immune cells to the area, and macrophage-related cytokines are molecules that help to regulate the activity of #macrophages, which are a type of immune cell. 98% of the CD3+ #lymphocyte s in the resection specimens were positive for PD-1, which is a molecule that helps to regulate the activity of the immune system.

#CCL5 is a protein produced by T cells, which are a type of white blood cell. #CCR5 is a receptor found on metastatic tumor cells, which are cancer cells that have spread from the primary #tumor to other parts of the body. In this research paper, it was found that CCL5 has #pleiotropic tumor-promoting effects on #tumor cells and tumor-associated #macrophage s. This means that CCL5 has multiple effects on both the cancer cells and the macrophages, which are a type of white #blood #cell, that are associated with the #tumor. CCL5 was produced mainly by T cells located at the invasive margin and #peritumoral stroma of metastases, and that CCR5 was dominantly expressed by metastatic tumor cells. CCL5 also had effects on tumor #CellProliferation, invasive tumor #CellBehavior, and increased production of matrix #metalloproteinas es by tumor-associated macrophages. Finally, they found that CCR5 inhibition had an effect on key molecules of #epithelial to #mesenchymal transition ( #EMT ).

The researchers wanted to test the effects of #CCR5 blockade, which is a way of blocking the CCR5 receptor on cells, using a drug called maraviroc. They used human #tumor #explantmodel s, which are samples of #tissue from advanced #CRC patients with #liver metastases. Maraviroc led to morphologically overt tumor #CellDeath in the #explants, which means that the tumor cells died and changed in appearance. The researchers then tested the hypothesis that #macrophage s, (type of white blood cell), were required for the tumor cell death-inducing effects of CCR5 blockade. They used clodronate #liposome s to deplete CD163+ TAMs, ( #macrophage s associated with tumors) and found that combining clodronate with CCR5 inhibition abrogated the immediate tumor cell death-inducing effects of #CCR5 inhibition. This confirmed the role of macrophages in this process. IFN-g induced stromal CD163+ #macrophage #cell death and led to a reconfiguration of the #myeloid cell compartment. Inhibition of macrophage-derived reactive oxygen species could partially block the anti-tumoral effects of CCR5 inhibition. Finally, they tested the effects of CCL5/CCR5 inhibition and found that both a CCL5 neutralizing antibody and a CCR5 blocking #antibody had similar functional effects to maraviroc.

A #ClinicalTrial (MARACON) was conducted to test the effects of a drug called maraviroc on patients with advanced-stage #metastatic colorectal #cancer. The #trial involved taking biopsies of the patients before and after treatment with maraviroc, and the results showed that the drug had beneficial effects on the tumor-promoting #microenvironment and led to objective clinical responses. These responses included induction of central #TumorNecrosis, reduction of tumor cell death, and reduction of key #cytokine s and growth factors that promote tumor growth. The drug was also found to be very well tolerated, with mild elevation of #liver enzymes being the most common side effect. Finally, the trial showed that partial responses were achieved in patients with previously refractory disease.

CCR5 blockade, is a type of #therapy used to treat #cancer.

The MARACON clinical trial, showed that CCR5 blockade had a positive effect on the tumor microenvironment and led to a higher response rate in subsequent chemotherapies. The authors suggest that this effect is not limited to the #liver metastases, but is a systemic feature. They also suggest that the local presence of multiple layers of #immune subversion in cancers depends on the individual tissue, #treatment, tumor type, and the difference between primary #tumor and metastatic lesion. The authors also found that the results of the #ClinicalTrial were in line with the results of a fully human organotypic tumor #ExplantModel, which is a simple model with a straightforward approach. The authors also note that the survival data from the trial is not conclusive due to the limited number of patients, but that the objective treatment responses are very encouraging. They suggest that CCR5 blockade may be a promising approach and needs to be evaluated further scientifically and clinically.

@explainpaper

Tumoral Immune Cell Exploitation in Colorectal Cancer Metastases Can Be Targeted Effectively by Anti-CCR5 Therapy in Cancer Patients

Niels Halama, Inka Zoernig, Anna Berthel, Christoph Kahlert, Fee Klupp, Meggy Suarez-Carmona,Thomas Suetterlin, Karsten Brand, Juergen Krauss, Felix Lasitschka, Tina Lerchl, Claudia Luckner-Minden, Alexis Ulrich, Moritz Koch, Juergen Weitz, Martin Schneider, Markus W. Buechler, Laurence Zitvogel,
Thomas Herrmann, Axel Benner, Christina Kunz, Stephan Luecke, Christoph Springfeld, Niels Grabe, Christine S. Falk, and Dirk Jaeger

Targeting Tumor-Promoting Microenvironment Through CCR5 Blockade in #Colorectal #Cancer #Liver Metastases

#Cancer progression is a process in which cancer cells and #immune cells interact with each other in a way that can lead to the growth and spread of cancer. In #colorectal cancer, when the cancer has spread to other parts of the body, it is called #metastasis and it is very difficult to treat. Treatments such as PD-1/PD-L1 blockade and #chemokine modulation have been successful in modifying the interactions between the immune system and cancer, leading to the rejection or suppression of progression. Cancer cells can also alter the immune microenvironment, leading to #immunosuppression and #immune evasion. In this research paper, the authors studied the microenvironment in #CRC #liver metastases and identified a network of #tumor cells and immune cells that exploit the CCL5-CCR5 axis. They then investigated and characterized the effects of blocking the CCL5-CCR5 axis.

the microenvironment of #liver metastases of #colorectal cancer (#CRC).

the environment induces migration of T lymphocytes, which produce a #cytokine called CCL5. This CCL5 then supports tumor growth and spread by influencing macrophages and #tumor cells. The environment is immunosuppressive and the tumor cells are exploiting the host's #immune cells to their advantage. In other words, the tumor cells are using the host's immune cells to help them grow and spread.

the effects of CCR5 blockade on the #tissue level.

Tumor #cell death and a specific pattern of #cytokine and #chemokine modulation are observed in the #ExplantModel and in #tumor biopsies from a #ClinicalTrial. Macrophages are the key for these anti-tumoral effects, as they produce IFNs and reactive oxygen species which cause tumor cell death. #CCR5 blockade induces a phenotypic shift in the macrophages, which is referred to as a switch from an M2 to an M1 phenotype. This repolarization also reduces levels of CD163+ cells, reshaping the #myeloid cell composition in the microenvironment. The influx of new effector cells due to CCR5 inhibition can shift the effects of CCL5 towards beneficial effects, such as reduction of #immunosuppression , #angiogenesis, and #chemotherapy resistance.

The microenvironment of the invasive margin of #liver metastases.

There was no relevant Th1, Th2, or Th17 #cytokine signature present in any of the samples. However, the authors did find that #chemokines and #macrophage-related cytokines were significantly increased at the invasive margin. Chemokines are molecules that help to attract #immune cells to the area, and macrophage-related cytokines are molecules that help to regulate the activity of #macrophages, which are a type of immune cell. 98% of the CD3+ #lymphocyte s in the resection specimens were positive for PD-1, which is a molecule that helps to regulate the activity of the immune system.

#CCL5 is a protein produced by T cells, which are a type of white blood cell. #CCR5 is a receptor found on metastatic tumor cells, which are cancer cells that have spread from the primary #tumor to other parts of the body. In this research paper, it was found that CCL5 has #pleiotropic tumor-promoting effects on #tumor cells and tumor-associated #macrophage s. This means that CCL5 has multiple effects on both the cancer cells and the macrophages, which are a type of white #blood #cell, that are associated with the #tumor. CCL5 was produced mainly by T cells located at the invasive margin and #peritumoral stroma of metastases, and that CCR5 was dominantly expressed by metastatic tumor cells. CCL5 also had effects on tumor #CellProliferation, invasive tumor #CellBehavior, and increased production of matrix #metalloproteinas es by tumor-associated macrophages. Finally, they found that CCR5 inhibition had an effect on key molecules of #epithelial to #mesenchymal transition ( #EMT ).

The researchers wanted to test the effects of #CCR5 blockade, which is a way of blocking the CCR5 receptor on cells, using a drug called maraviroc. They used human #tumor #explantmodel s, which are samples of #tissue from advanced #CRC patients with #liver metastases. Maraviroc led to morphologically overt tumor #CellDeath in the #explants, which means that the tumor cells died and changed in appearance. The researchers then tested the hypothesis that #macrophage s, (type of white blood cell), were required for the tumor cell death-inducing effects of CCR5 blockade. They used clodronate #liposome s to deplete CD163+ TAMs, ( #macrophage s associated with tumors) and found that combining clodronate with CCR5 inhibition abrogated the immediate tumor cell death-inducing effects of #CCR5 inhibition. This confirmed the role of macrophages in this process. IFN-g induced stromal CD163+ #macrophage #cell death and led to a reconfiguration of the #myeloid cell compartment. Inhibition of macrophage-derived reactive oxygen species could partially block the anti-tumoral effects of CCR5 inhibition. Finally, they tested the effects of CCL5/CCR5 inhibition and found that both a CCL5 neutralizing antibody and a CCR5 blocking #antibody had similar functional effects to maraviroc.

A #ClinicalTrial (MARACON) was conducted to test the effects of a drug called maraviroc on patients with advanced-stage #metastatic colorectal #cancer. The #trial involved taking biopsies of the patients before and after treatment with maraviroc, and the results showed that the drug had beneficial effects on the tumor-promoting #microenvironment and led to objective clinical responses. These responses included induction of central #TumorNecrosis, reduction of tumor cell death, and reduction of key #cytokine s and growth factors that promote tumor growth. The drug was also found to be very well tolerated, with mild elevation of #liver enzymes being the most common side effect. Finally, the trial showed that partial responses were achieved in patients with previously refractory disease.

CCR5 blockade, is a type of #therapy used to treat #cancer.

The MARACON clinical trial, showed that CCR5 blockade had a positive effect on the tumor microenvironment and led to a higher response rate in subsequent chemotherapies. The authors suggest that this effect is not limited to the #liver metastases, but is a systemic feature. They also suggest that the local presence of multiple layers of #immune subversion in cancers depends on the individual tissue, #treatment, tumor type, and the difference between primary #tumor and metastatic lesion. The authors also found that the results of the #ClinicalTrial were in line with the results of a fully human organotypic tumor #ExplantModel, which is a simple model with a straightforward approach. The authors also note that the survival data from the trial is not conclusive due to the limited number of patients, but that the objective treatment responses are very encouraging. They suggest that CCR5 blockade may be a promising approach and needs to be evaluated further scientifically and clinically.

microenvironment. To address this, treat the #hSkMO s with extrinsic #cytokine s to promote #muscle #regeneration . #hSkMO s might then be used to study aspects of human muscle @biology and to identify novel #therapeutic candidates for muscle-wasting disorders.

To create a 3D structure of muscle tissue.

#Stemcell s ( #SC s) can be used to repair damaged muscle tissue. They explain that SCs can be activated in response to muscle injuries and that other #cell types can contribute to the process of #myogenesis. The author then goes on to explain that #cytokine s, such as IL-4, can influence the #InflammatorySystem and promote SCs differentiation, which helps with muscle regeneration. While #organoid s generated from #hPSC s have potential, they do not fully replicate the in vivo native

"A close examination of the IL-2–IL-2Rα binding interface reveals a putative “pH Switch” consisting of the interaction between Arg38 in IL-2 and His120 in IL-2Rα (Fig. 2F). We hypothesized that, at the low pH in the TME, His120 would become protonated, resulting in release of IL-2 from IL-2Rα and therefore lack of signaling."

#Immunology #Cytokine #Immunotherapy #IL2

https://www.science.org/doi/10.1126/sciimmunol.ade5686