An Upregulation of DNA-Methyltransferase 1 and 3a Expressed in Telencephalic Gabaergic Neurons of Schizophrenia Patients Is Also Detected in Peripheral Blood Lymphocytes

Zhubi, A., Veldic, M., Puri, N. V., Kadriu, B., Caruncho, H., Loza, I., Sershen, H., Lajtha, A., Smith, R. C., Guidotti, A., Davis, J. M., Costa, E.

01 June 2009

Several lines of schizophrenia (SZ) research suggest that a functional downregulation of the prefrontal cortex GABAergic neuronal system is mediated by a promoter hypermethylation, presumably catalyzed by an increase in DNA-methyltransferase-1 (DNMT-1) expression. This promoter hypermethylation may be mediated not only by DNMT-1 but also by an entire family of de novo DNA-methyltransferases, such as DNA-methyltransferase-3a (DNMT-3a) and -3b (DNMT-3b). To verify the existence of an overexpression of DNMT-3a and DNMT-3b in the brain of schizophrenia patients (SZP), we compared their mRNA expression in Brodmann's area 10 (BA10) and in the caudate nucleus and putamen obtained from the Harvard Brain Tissue Resource Center (Belmont, MA) from both nonpsychiatric subjects (NPS) and SZP. Our results demonstrate that DNMT-3a and DNMT-1 are expressed and co-localize in distinct GABAergic neuron populations whereas DNMT-3b mRNA is virtually undetectable. We also found that unlike DNMT-1, which is frequently overexpressed in telencephalic GABAergic neurons of SZP, DNMT-3a mRNA is overexpressed only in layer I and II GABAergic interneurons of BA10. To ascertain whether these DNMT expression differences observed in brain tissue could also be detected in peripheral tissues, we studied whether DNMT-1 and DNMT-3a mRNAs were overexpressed in peripheral blood lymphocytes (PBL) of SZP. Both DNMT-1 and DNMT-3a mRNAs are expressed in the PBL and although DNMT-3a mRNA levels in the PBL are approximately 1/10 of those of DNMT-1, the comparison of the PBL content in NPS and SZP showed a highly significant 2-fold increase of both DNMT-1 and DNMT-3a mRNA in SZP. These changes were unaffected by the dose, the duration, or the type of antipsychotic treatment. The upregulation of DNMT-1 and to a lesser extent that of DNMT-3a mRNA in PBL of SZP supports the concept that this readily available peripheral cell type can express an epigenetic variation of specific biomarkers relevant to SZ morbidity. Hence, PBL studies may become useful to investigate a diagnostic epigenetic marker of SZ morbidity.

DNA-methyltransferases

GAD67

peripheral blood lymphocytes

reelin

Characterization of a Suppressor of Mitogen-Activated Lymphocytes

Hodge, T. W., Inman, F. P.

01 January 1982

Human palatine tonsil lymphocytes, when compared with peripheral blood lymphocytes (PBL), were in an activated state, even though there was no in vitro stimulation. When these tonsil lymphocytes were cultured in the absence of serum and polyclonal mitogens or antigens, the supernatant fluid often inhibited the proliferative response of target PBL to concanavalin A. The extent of this suppression ranged from 22% to 84%, and target cell viability was 90% or greater. There was no evidence for the presence of immunoglobulins or α2-macroglobulin in whole supernatant fluids. The suppressor was partially denatured at 80°C and was rendered completely inactive upon exposure to 100°C for 5 min. It was trypsin-sensitive, and had an apparent molecular weight of 100,000 or greater. The protein adhered strongly to DE-52, and the most active material was eluted with 0.4–0.6 M NaCl. Only one component was detected in this fraction by polyacrylamide gel electrophoresis. The suppressor had an isoelectric point of 5.0 ± 0.6.

human tonsil lymphocytes

peripheral blood lymphocytes

suppressor protein

tissue culture

Failure of Met-Enkephalin to Enhance Natural Killer Cell Activity

Kastin, Abba J., Seligson, Janet, Strimas, John H., Chi, David S.

01 January 1991

Several papers have reported the enhancing effects of opiate peptides, like Met-enkephalin, on natural killer (NK) cell activity. We examined the actions of Met-enkephalin on NK activity in blood obtained from 18 different donors, of different ages, many of them on several occasions, at several ratios of effector to target cells, several concentrations of peptide, in several types of flasks, with the purity and identity of the pentapeptide verified by chromatography, in a system responsive to interferon, and with results calculated in different ways. No significant increase was found for the peptide for any ratio of cells, any concentration of peptide, or any single subject, even when the subjects with the lowest baseline NK cell activity were used or when the subjects were more than 60 years old. Instead of an increase, the combined results for all subjects at all ratios at all concentrations of Met-enkephalin showed an overall decrease of 31.3 % specific cytotoxicity. These results fail to support the reports of an enhancing effect of Met-enkephalin on NK cell activity.

analysis of variance

ANOVA

Met

methionine

natural killer

NK

PBL

peripheral blood lymphocytes

The therapeutic/anti-carcinogenic effect of cord blood stem cells-derived exosomes in malignant melanoma

Naeem, Parisa

January 2022

Malignant melanoma is an invasive type of skin cancer with high mortality rates, if not detected promptly. The mortality trends are generally linked to multiple dysplastic nevi, positive family history, genetic susceptibility and phenotypic features including fair skin, freckles, numerous atypical nevi, light coloured hair and eyes, inability to tan and prolonged exposure to ultraviolet radiation B (UVB). To date, the major anti-cancer therapeutics for melanoma include surgery, chemotherapy, radiotherapy, and immunotherapy. Recently, extracellular vesicles, especially exosomes, have been highlighted for their therapeutic benefits in numerous chronic diseases such as cancer. Exosomes display multifunctional properties, including inhibition of cancer cell proliferation and initiation of apoptosis. Hence, this study aimed to evaluate the genotoxicity and cytotoxicity of cord blood stem cell-derived (CBSC) exosomes on 6 samples of peripheral blood lymphocytes taken from healthy individuals and melanoma patients and on 3 samples of melanoma (CHL-1) cells. The limited number of samples was due to the time limitations and restrictions that were in place due to the COVID-19 pandemic. In this in vitro study, the optimal concentration of CBSC-derived exosomes (0, 100, 200, 300, 400 μg/ml protein at 24, 48 and 72h treatments) was confirmed by the CCK-8 assay. CBSC exosomes (300 μg/ml) were used to treat lymphocytes and CHL-1 cells in the Comet assay and evaluated using the real-time polymerase chain reaction (qPCR) and Western blotting (WB). The data of the CCK-8 and Comet assays illustrated that exosomes exerted genotoxic effects on CHL-1 cells (CCK-8 assay, ****p < 0.0001), (Comet assay, *p <0.05, **p < 0.01). However, the data portraying a reduction in the viability of lymphocytes needs further investigation as the number of samples was limited, therefore, further clarification is required. Importantly, no significant adverse effect was observed in healthy lymphocytes when treated with the same exosomes (p = ns). When further challenged with UVA+B radiation, the exosomes did not induce any genoprotective effect on ROS-induced CHL-1 cells, compared to the positive control (p = ns). Our data insinuates that the damage might be caused by inducing apoptosis. The anti-tumourigenic potential of exosomes was observed by activating the p53-mediated apoptotic pathway in CHL-1 cells, up-regulating p53, p21 and caspase 3 and down-regulating BCL-2 at mRNA (**p < 0.01, ***p <0.001, ****p <0.0001) and protein levels (*p < 0.05, **p <0.01). The potency of CBSC exosomes in inhibiting cancer progression in CHL-1 cells whilst causing no harm to the healthy lymphocytes makes it an ideal potential candidate for anti-cancer therapy. More samples are required to evaluate the therapeutic effect of exosomes on lymphocytes from cancer patients to fully understand their mechanism of action.

Extracellular vesicles

Exosomes

Melanoma

Peripheral blood lymphocytes

Apoptosis

Anti-carcinogenic

Cancer therapeutics

Skin cancer

Effects of Graphene Oxide in vitro on DNA Damage in Human Whole Blood and Peripheral Blood Lymphocytes from Healthy individuals and Pulmonary Disease Patients: Asthma, COPD, and Lung Cancer

Amadi, Emmanuel E.

January 2019

For the past few decades, the popularity of graphene oxide (GO) nanomaterials (NMs) has increased exceedingly due to their biomedical applications in drug delivery of anti-cancer drugs. Their unique physicochemical properties such as high surface area and good surface chemistry with unbound surface functional groups (e.g. hydroxyl - OH, carboxyl /ketone C=O, epoxy/alkoxy C-O, aromatic group C=C, etc) which enable covalent bonding with organic molecules (e.g. RNA, DNA) make GO NMs as excellent candidates in drug delivery nanocarriers. Despite the overwhelming biomedical applications, there are concerns about their genotoxicity on human DNA. Published genotoxicity studies on GO NMs were performed using non-commercial GO with 2-3 layers of GO sheets, synthesized in various laboratories with the potential for inter-laboratory variabilities. However, what has not been studied before is the effects of the commercial GO (15-20 sheets; 4-10% edge-oxidized; 1 mg/mL) in vitro on DNA damage in human whole blood and peripheral blood lymphocytes (PBL) from real-life patients diagnosed with chronic pulmonary diseases [asthma, chronic obstructive pulmonary disease (COPD), and lung cancer], and genotoxic endpoints compared with those from healthy control individuals to determine whether there are any differences in GO sensitivity. Thus, in the present study, we had characterized GO NMs using Zetasizer Nano for Dynamic Light Scattering (DLS) and zeta potential (ZP) in the aqueous solution, and electron microscopy using the Scanning Electron Microscope (SEM) and Transmission Electron Microscope (TEM) in the dry state, respectively. Cytotoxicity studies were conducted on human PBL from healthy individuals and patients (asthma, COPD, and lung cancer) using the Methylthiazolyldiphenyl-tetrazolium bromide (MTT) and Neutral Red Uptake (NRU) assays, respectively. The genotoxicity (DNA damage) and cytogenetic effects (chromosome aberration parameters) induced by GO NMs on human whole blood from healthy individuals and patients were studied using the Alkaline Comet Assay and Cytokinesis-blocked Micronucleus (CBMN) assay, respectively. Our results showed concentration-dependent increases in cytotoxicity, genotoxicity, and chromosome aberrations, with blood samples from COPD and lung cancer patients being more sensitive to DNA damage insults compared with asthma patients and healthy control individuals. Furthermore, the relative gene and protein expressions of TP53, CDKN1A/p21, and BCL-2 relative to GAPDH on human PBL were studied using the Reverse Transcription Quantitative Polymerase Chain Reaction (RT-qPCR) and Western Blot techniques, respectively. Our results have shown altered gene and protein expression levels. Specifically, GO-induced cytotoxicity, genotoxicity, and micronuclei aberrations were associated with TP53 upregulation - a biomarker of DNA damage - in both patients and healthy individuals. These effects show that GO NMs have promising roles in drug delivery applications when formulated to deliver drug payload to COPD and cancer cells. However, the fact that cytotoxicity, genotoxicity, chromosome instability, and gene/protein expressions - biomarkers of cancer risk - were observed in healthy individuals are of concern to public health, especially in occupational exposures at micro levels at the workplace.

Graphene oxide

Human whole blood

Peripheral blood lymphocytes

Asthma

Lung cancer

Comet assay

Micronucleus assay

Western Blot

RT-qPCR

Nanomaterials

Characterisation of nicotine binding sites on human blood lymphocytes

Wongsriraksa, Anong

January 2008

Nicotine exerts a therapeutic effect in ulcerative colitis (UC) but the mechanism underlying this effect, is not clear. However, this effect may imply that nicotine has some, as yet to be discovered, effect on the immune system. The aim of the work described in this thesis was to characterise the nicotinic acetylcholine receptors (nAChRs) on human peripheral blood lymphocytes in term of receptor subtype. To achieve this, a combination of radioligand binding assays, pharmacological and molecular biological techniques were used. The data obtained from the binding studies suggested that the presence of one binding site for (-)- nicotine on human peripheral blood lymphocytes with a Kd 15 ± 5.759 nM (1.5 ± 5.759 x 10-8 M) and Bmax 2253 ± 409 sites/cell. The competition studies showed that ligands competing with [3H]-(-)-nicotine were (-)-nicotine, epibatidine and α-bungarotoxin, while others ligands for nAChRs displaced radiolabelled nicotine in insignificant quantities. Thus, radioligand-binding experiments suggest that the binding site for nicotine on human peripheral blood lymphocytes is a nAChR containing α7 and possibly α4 or/and b2 containing nAChR subunits. No evidence was obtained to suggest the presence of a non-cholinergic nicotine receptor. Furthermore, considerable subject to subject variation in the specific binding of radiolabelled nicotine was observed. Because of this only tentative conclusions could be drawn from radioligand binding data. Polymerase chain reaction (RT-PCR) was then used to demonstrate mRNA for the subunits of nAChRs suggested by radioligand binding studies. Data obtained show that the human peripheral blood lymphocytes tested, expressed mRNAs for α4, α5, α7, β2 neuronal nAChRs subunits and β1 muscle nAChR subunit. Expression of the α5 mRNA subunit of nAChR was observed in the lymphocytes in each sample of lymphocytes tested. In contrast, the expression pattern of mRNAs for α4, α7, β1, and β2 mRNAs subunits of nAChRs, varied between individuals. Finally, Western blot analysis was used to confirm that mRNA expression resulted in the expression of protein for nAChR subunits in human peripheral lymphocytes using monoclonal antibodies against α4, α5, α7, and β2 nAChR subunits, which had been detected by RT-PCR. The results obtained from the Western blot analysis show that protein for α4, α5, and α7 nAChR subunits was expressed in most, but not all of the human peripheral blood lymphocyte samples tested and some of the bands obtained were faint. In contrast, protein for the β2 nAChR subunit was observed in a few samples tested and the bands were faint. From the results obtained in this study, it is possible to conclude that human peripheral blood lymphocytes may contain nAChRs with subunit compositions of α4β2, α4β2α5, and/or α7. However, further studies are necessary to show whether or not the single binding site for nicotine demonstrated by radioligand binding experiments is due to one or all of these nAChRs. Thus, the findings of the present study suggest the presence of nAChR on human peripheral blood lymphocytes. Nicotine and its effect may occur through these non- neuronal nAChRs mechanisms. Such a mechanism of action could account for the beneficial of nicotine in ulcerative colitis. Furthermore, a compound that acts on these receptors, but not on nAChRs found on other cells may have therapeutic utility in the treatment of inflammation.

615.1