搜索结果: 'methocult media formulations for mouse hematopoietic cells serum containing'

The efficacy of immunotherapy is often hindered by the suppression of immune responses via the tumor microenvironment (TME). The presence of cancer cells forces other proximal non-cancerous cells to support tumor growth and persistence. A clear example of this cancerous-to-non-cancerous communication is represented by the accumulation of myeloid-derived suppressor cells (MDSCs) within the TME. Several studies have convergently shown that the overexpression of DNA-methyl-transferase-1 (DNMT1) in these cells results in protection from necroptosis and enhanced accumulation in vivo. Conversely,targeting DNMT1 through hypo-methylating agents has shown promising therapeutic potential by not only reducing the levels of MDSCs but also enhancing cancer immunogenicity and the efficacy of immune checkpoint inhibitors (ICI). Methods: Murine 4T1 (triple-negative breast cancer (TNBC)) and CT26 (colon carcinoma) cell lines were cultured under standard conditions and used to generate tumor models in BALB/c mice. An oncolytic adenovirus expressing a DNMT1-targeting short hairpin RNA (OAd.shDNMT1) was engineered and validated for DNMT1 knockdown and genome-wide methylation reduction. Small extracellular vesicles (sEVs) were isolated from virus-infected cancer cells and characterized for RNA content and uptake by MDSCs. MDSC differentiation and suppressive function were assessed in vitro using flow cytometry and co-culture assays with murine splenocytes. In vivo,tumor-bearing mice received intratumoral OAd.shDNMT1,systemic decitabine,or immune checkpoint inhibitors (anti-Programmed cell Death protein-1),and tumor growth,immune infiltration,and systemic MDSC levels were evaluated. Results: In this study,we report that,by using virally infected TNBC murine cells as a source for shDNMT1-loaded sEVs,OAd.shDNMT1 successfully reduced MDSC levels in vitro and in vivo. Furthermore,the co-administration with ICI resulted in a significant tumor growth reduction in mice bearing poorly immunogenic TNBC 4T1 cells. Also,our treatment promoted antitumor immunity,prolonged survival,and complete tumor eradication in modestly immunogenic colon CT26 cancer cells. Conclusions: This multifaceted strategy,based on OV-mediated immune stimulation and reduction of MDSC levels via sEVs,may improve clinical outcomes and the success of immuno-based regimens for patients facing MDSC-rich and highly aggressive cancer subtypes. View Publication

In dynamic light microscopy applications,imaging specimens from multiple angles while maintaining controlled temperature conditions is crucial for comprehensive and accurate analysis. To address these challenges,we present iCAT,an open-source multifunctional accessory designed to enhance light microscopy. It enables specimen rotation along the axial plane,incorporates built-in modules for precise temperature control,features an integrated LED,and includes a camera for real-time specimen monitoring. It can be easily 3D-printed and assembled using readily available electrical components. Combined with any up-right microscope,this versatile device allows researchers to capture detailed images and videos of organoid cultures and live or fixed specimens,such as C. elegans,zebrafish,drosophila,or mouse embryos. The potential applications of iCAT in investigating dynamic cellular processes and complex developmental phenomena are vast,inspiring researchers to explore its possibilities and push the boundaries of biological research. iCAT,an open-source,3D-printable microscopy accessory,enables axial specimen rotation,temperature control,and live monitoring for high-resolution imaging of organoids and diverse model organisms. View Publication

Adult T-cell leukemia (ATL) caused by human T-cell leukemia virus type 1 (HTLV-1) infection,occurs in 2% to 4% of the HTLV-1 carriers with a long latent period,suggesting that additional alterations participate in the development of ATL. To characterize and identify novel markers of ATL,we examined the expression profiles of more than 12 000 genes in 8 cases of acute-type ATL using microarray. One hundred ninety-two genes containing interleukin 2 (IL-2) receptor alpha were up-regulated more than 2-fold compared with CD4(+) and CD4(+)CD45RO(+) T cells,and tumor suppressor in lung cancer 1 (TSLC1),caveolin 1,and prostaglandin D2 synthase showed increased expression of more than 30-fold. TSLC1 is a cell adhesion molecule originally identified as a tumor suppressor in the lung but lacks its expression in normal or activated T cells. We confirmed ectopic expression of the TSLC1 in all acute-type ATL cells and in 7 of 10 ATL- or HTLV-1-infected T-cell lines. Introduction of TSLC1 into a human ATL cell line ED enhanced both self-aggregation and adhesion ability to vascular endothelial cells. These results suggested that the ectopic expression of TSLC1 could provide a novel marker for acute-type ATL and may participate in tissue invasion,a characteristic feature of the malignant ATL cells. View Publication

Human induced pluripotent stem cell-derived cardiomyocyte (iPSC-CM)-based assays are emerging as a promising tool for the in vitro preclinical screening of QT interval-prolonging side effects of drugs in development. A major impediment to the widespread use of human iPSC-CM assays is the low throughput of the currently available electrophysiological tools. To test the precision and applicability of the near-infrared fluorescent voltage-sensitive dye 1-(4-sulfanatobutyl)-4-β[2-(di-n-butylamino)-6-naphthyl]butadienylquinolinium betaine (di-4-ANBDQBS) for moderate-throughput electrophysiological analyses,we compared simultaneous transmembrane voltage and optical action potential (AP) recordings in human iPSC-CM loaded with di-4-ANBDQBS. Optical AP recordings tracked transmembrane voltage with high precision,generating nearly identical values for AP duration (AP durations at 10%,50%,and 90% repolarization). Human iPSC-CMs tolerated repeated laser exposure,with stable optical AP parameters recorded over a 30-min study period. Optical AP recordings appropriately tracked changes in repolarization induced by pharmacological manipulation. Finally,di-4-ANBDQBS allowed for moderate-throughput analyses,increasing throughput textgreater10-fold over the traditional patch-clamp technique. We conclude that the voltage-sensitive dye di-4-ANBDQBS allows for high-precision optical AP measurements that markedly increase the throughput for electrophysiological characterization of human iPSC-CMs. View Publication

Many drug-resistant tumors and cancer stem cells (CSC) express elevated levels of CD44 receptor,a cellular glycoprotein binding hyaluronic acid (HA). Here,we report the synthesis of nanogel-drug conjugates based on membranotropic cholesteryl-HA (CHA) for efficient targeting and suppression of drug-resistant tumors. These conjugates significantly increased the bioavailability of poorly soluble drugs with previously reported activity against CSC,such as etoposide,salinomycin,and curcumin. The small nanogel particles (diameter 20-40 nm) with a hydrophobic core and high drug loads (up to 20%) formed after ultrasonication and demonstrated a sustained drug release following the hydrolysis of biodegradable ester linkage. Importantly,CHA-drug nanogels demonstrated 2-7 times higher cytotoxicity in CD44-expressing drug-resistant human breast and pancreatic adenocarcinoma cells compared to that of free drugs and nonmodified HA-drug conjugates. These nanogels were efficiently internalized via CD44 receptor-mediated endocytosis and simultaneous interaction with the cancer cell membrane. Anchoring by cholesterol moieties in the cellular membrane after nanogel unfolding evidently caused more efficient drug accumulation in cancer cells compared to that in nonmodified HA-drug conjugates. CHA-drug nanogels were able to penetrate multicellular cancer spheroids and displayed a higher cytotoxic effect in the system modeling tumor environment than both free drugs and HA-drug conjugates. In conclusion,the proposed design of nanogel-drug conjugates allowed us to significantly enhance drug bioavailability,cancer cell targeting,and the treatment efficacy against drug-resistant cancer cells and multicellular spheroids. View Publication

Chlamydia infection and disease are endemic in free-ranging koalas. Antibiotics remain the front line treatment for Chlamydia in koalas,despite their rates of treatment failure and adverse gut dysbiosis outcomes. A Chlamydia vaccine for koalas has shown promise for replacing antibiotic treatment in mild ocular Chlamydia disease. In more severe disease presentations that require antibiotic intervention,the effect of vaccinating during antibiotic use is not currently known. This study investigated whether a productive immune response could be induced by vaccinating koalas during antibiotic treatment for Chlamydia-induced cystitis. Plasma IgG antibody levels against the C. pecorum major outer membrane protein (MOMP) dropped during antibiotic treatment in both vaccinated and unvaccinated koalas. Post-treatment,IgG levels recovered. The IgG antibodies from naturally-infected,vaccinated koalas recognised a greater proportion of the MOMP protein compared to their naturally-infected,unvaccinated counterparts. Furthermore,peripheral blood mononuclear cell gene expression revealed an up-regulation in genes related to neutrophil degranulation in vaccinated koalas during the first month post-vaccination. These findings show that vaccination of koalas while they are being treated with antibiotics for cystitis can result in the generation of a productive immune response,in the form of increased and expanded IgG production and host response through neutrophil degranulation. View Publication

Hepatocyte death during acetaminophen (APAP) intoxication elicits a reactive inflammatory response,with hepatic recruitment of neutrophils and monocytes,which further aggravates liver injury. Neutrophil elastase (NE),secreted by activated neutrophils,carries degradative and cytotoxic functions and maintains a proinflammatory state. We investigated NE as a therapeutic target in acetaminophen-induced liver injury (AILI). C57BL/6 mice were administered a toxic dose of APAP,2 h prior to receiving the NE inhibitor sivelestat,N-acetylcysteine (NAC),or a combination therapy,and were euthanized after 24 and 48 h. Upon APAP overdose,neutrophils and monocytes infiltrate the injured liver,accompanied by increased levels of NE. Combination therapy of NAC and sivelestat significantly limits liver damage,as evidenced by lower serum transaminase levels and less hepatic necrosis compared to mice that received APAP only,and this to a greater extent than NAC monotherapy. Lower hepatic expression of proinflammatory markers was observed in the combination treatment group,and flow cytometry revealed significantly less monocyte influx in livers from mice treated with the combination therapy,compared to untreated mice and mice treated with NAC only. The potential of NE to induce leukocyte migration was confirmed in vitro. Importantly,sivelestat did not impair hepatic repair. In conclusion,combination of NE inhibition with sivelestat and NAC dampens the inflammatory response and reduces liver damage following APAP overdose. This strategy exceeds the standard of care and might represent a novel therapeutic option for AILI. View Publication

Progranulin (pgrn; granulin-epithelin precursor,PC-cell-derived growth factor,or acrogranin) is a multifunctional secreted glycoprotein implicated in tumorigenesis,development,inflammation,and repair. It is highly expressed in macrophage and monocyte-derived dendritic cells. Here we investigate its regulation in myeloid cells. All-trans retinoic acid (ATRA) increased pgrn mRNA levels in myelomonocytic cells (CD34(+) progenitors; monoblastic U-937; monocytic THP-1; progranulocytic HL-60; macrophage RAW 264.7) but not in nonmyeloid cells tested. Interleukin-4 impaired basal expression of pgrn in U-937. Differentiation agents DMSO,and,in U-937 only,phorbol ester [phorbol 12-myristate,13-acetate (PMA)] elevated pgrn mRNA expression late in differentiation,suggestive of roles for pgrn in more mature terminally differentiated granulocyte/monocytes rather than during growth or differentiation. The response of pgrn mRNA to ATRA differs in U-937 and HL-60 lineages. In U-937,ATRA and chemical differentiation agents greatly increased pgrn mRNA stability,whereas,in HL-60,ATRA accelerated pgrn mRNA turnover. The initial upregulation of pgrn mRNA after stimulation with ATRA was independent of de novo protein synthesis in U-937 but not HL-60. Chemical blockade of nuclear factor-kappaB (NF-kappaB) activation impaired ATRA-stimulated pgrn expression in HL-60 but not U-937,whereas in U-937 it blocked PMA-induced pgrn mRNA expression,suggestive of cell-specific roles for NF-kappaB in determining pgrn mRNA levels. We propose that: 1) ATRA regulates pgrn mRNA levels in myelomonocytic cells; 2) ATRA acts in a cell-specific manner involving the differential control of mRNA stability and differential requirement for NF-kappaB signaling; and 3) elevated pgrn mRNA expression is characteristic of more mature cells and does not stimulate differentiation. View Publication