The Enzymatic and Non-Enzymatic Function of Myeloperoxidase (MPO) in Inflammatory Communication

Myeloperoxidase is a signature enzyme of polymorphonuclear neutrophils in mice and humans. Being a component of circulating white blood cells, myeloperoxidase plays multiple roles in various organs and tissues and facilitates their crosstalk. Here, we describe the current knowledge on the tissue- and lineage-specific expression of myeloperoxidase, its well-studied enzymatic activity and incoherently understood non-enzymatic role in various cell types and tissues. Further, we elaborate on Myeloperoxidase (MPO) in the complex context of cardiovascular disease, innate and autoimmune response, development and progression of cancer and neurodegenerative diseases.

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Human-level recognition of blast cells in acute myeloid leukemia with convolutional neural networks

10.1101/564039 ◽

2019 ◽

Cited By ~ 1

Author(s):

Christian Matek ◽

Simone Schwarz ◽

Karsten Spiekermann ◽

Carsten Marr

Keyword(s):

Acute Myeloid Leukemia ◽

Blood Cells ◽

Myeloid Leukemia ◽

White Blood Cells ◽

Cell Types ◽

Hematologic Malignancies ◽

Malignant Cell ◽

Morphological Examination ◽

Blast Cells ◽

Acute Myeloid

AbstractReliable recognition of malignant white blood cells is a key step in the diagnosis of hematologic malignancies such as Acute Myeloid Leukemia. Microscopic morphological examination of blood cells is usually performed by trained human examiners, making the process tedious, time-consuming and hard to standardise.We compile an annotated image dataset of over 18,000 white blood cells, use it to train a convolutional neural network for leukocyte classification, and evaluate the network’s performance. The network classifies the most important cell types with high accuracy. It also allows us to decide two clinically relevant questions with human-level performance, namely (i) if a given cell has blast character, and (ii) if it belongs to the cell types normally present in non-pathological blood smears.Our approach holds the potential to be used as a classification aid for examining much larger numbers of cells in a smear than can usually be done by a human expert. This will allow clinicians to recognize malignant cell populations with lower prevalence at an earlier stage of the disease.

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Klasifikasi Sel Darah Putih dan Sel Limfoblas Menggunakan Metode Multilayer Perceptron Backpropagation

IJEIS (Indonesian Journal of Electronics and Instrumentation Systems) ◽

10.22146/ijeis.49943 ◽

2019 ◽

Vol 9 (2) ◽

pp. 173

Author(s):

Apri Nur Liyantoko ◽

Ika Candradewi ◽

Agus Harjoko

Keyword(s):

Blood Cell ◽

White Blood Cell ◽

Blood Cells ◽

White Blood Cells ◽

Back Propagation ◽

Cell Types ◽

Diagnostic Process ◽

The Subject ◽

Processing Techniques

Leukemia is a type of cancer that is on white blood cell. This disease are characterized by abundance of abnormal white blood cell called lymphoblast in the bone marrow. Classification of blood cell types, calculation of the ratio of cell types and comparison with normal blood cells can be the subject of diagnosing this disease. The diagnostic process is carried out manually by hematologists through microscopic image. This method is likely to provide a subjective result and time-consuming.The application of digital image processing techniques and machine learning in the process of classifying white blood cells can provide more objective results. This research used thresholding method as segmentation and multilayer method of back propagation perceptron with variations in the extraction of textural features, geometry, and colors. The results of segmentation testing in this study amounted to 68.70%. Whereas the classification test shows that the combination of feature extraction of GLCM features, geometry features, and color features gives the best results. This test produces an accuration value 91.43%, precision value of 50.63%, sensitivity 56.67%, F1Score 51.95%, and specitifity 94.16%.

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Nonmalignant Disorders of Leukocytes

10.2310/im.1010 ◽

2011 ◽

Author(s):

Alison M. Schram ◽

Nancy Berliner

Keyword(s):

Blood Cells ◽

Langerhans Cell Histiocytosis ◽

White Blood Cells ◽

Cell Types ◽

Immune Defense ◽

Cancer Surveillance ◽

Vasoactive Substances ◽

Clinical Disorders ◽

Life Threatening ◽

And Function

Leukocytes, also known as white blood cells, are hematologic cells important for a host’s immune defense. They comprise several diverse cell types including lymphocytes, neutrophils, monocytes, macrophages, and eosinophils. Each plays a unique and important role in fighting infection, cancer surveillance, and maintaining immune homeostasis. Leukocytes exert their effect and interact with host and foreign cells through the release of cytokines, chemokines, enzymes, and vasoactive substances. Altered number and function of these cells can lead to clinical disorders that range from benign to severe and life-threatening. Here we review the diagnosis, natural history, and treatment of nonmalignant disorders of leukocytes. This review contains 100 references, 6 figures, and 9 tables. Key Words: eosinophilia, hemophagocytic histiocytosis, Langerhans cell histiocytosis, lymphocytopenia, lymphocytosis mastocytosis, neutropenia, neutrophilia

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The blood cells and blood count

10.1093/med/9780199600830.003.0265 ◽

2016 ◽

Author(s):

Tyler J. Albert ◽

Erik R. Swenson

Keyword(s):

Stem Cell ◽

Blood Cells ◽

White Blood Cells ◽

Peripheral Blood Smear ◽

Cell Types ◽

Multiple Organ ◽

Carbon Dioxide Transport ◽

Vascular Integrity ◽

Hematopoietic Stem ◽

Critical Components

Blood is a dynamic fluid consisting of cellular and plasma components undergoing constant regeneration and recycling. Like most physiological systems, the concentrations of these components are tightly regulated within narrow limits under normal conditions. In the critically-ill population, however, haematological abnormalities frequently occur and are largely due to non-haematological single- or multiple-organ pathology. Haematopoiesis originates from the pluripotent stem cell, which undergoes replication, proliferation, and differentiation, giving rise to cells of the erythroid, myeloid, and lymphoid series, as well as megakaryocytes, the precursors to platelets. The haemostatic system is responsible for maintaining blood fluidity and, at the same time, prevents blood loss by initiating rapid, localized, and appropriate blood clotting at sites of vascular damage. This system is complex, comprising both cellular and plasma elements, i.e. platelets, coagulation and fibrinolytic cascades, the natural intrinsic and extrinsic pathways of anticoagulation, and the vascular endothelium. A rapid, reliable, and inexpensive method of examining haematological disorders is the peripheral blood smear, which allows practitioners to assess the functional status of the bone marrow during cytopenic states. Red blood cells, which are primarily concerned with oxygen and carbon dioxide transport, have a normal lifespan of only 120 days and require constant erythropoiesis. White blood cells represent a summation of several circulating cell types, each deriving from the hematopoietic stem cell, together forming the critical components of both the innate and adaptive immune systems. Platelets are integral to haemostasis, and also aid our inflammatory and immune responses, help maintain vascular integrity, and contribute to wound healing.

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Rapid and sustained hematopoietic recovery in lethally irradiated mice transplanted with purified Thy-1.1lo Lin-Sca-1+ hematopoietic stem cells

Blood ◽

10.1182/blood.v83.12.3758.3758 ◽

1994 ◽

Vol 83 (12) ◽

pp. 3758-3779 ◽

Cited By ~ 123

Author(s):

N Uchida ◽

HL Aguila ◽

WH Fleming ◽

L Jerabek ◽

IL Weissman

Keyword(s):

Stem Cells ◽

Hematopoietic Stem Cells ◽

Blood Cells ◽

Critical Role ◽

White Blood Cells ◽

Cell Types ◽

Dose Dependence ◽

Hematopoietic Stem ◽

Hematopoietic Recovery

Abstract Hematopoietic stem cells (HSCs) are believed to play a critical role in the sustained repopulation of all blood cells after bone marrow transplantation (BMT). However, understanding the role of HSCs versus other hematopoietic cells in the quantitative reconstitution of various blood cell types has awaited methods to isolate HSCs. A candidate population of mouse HSCs, Thy-1.1lo Lin-Sca-1+ cells, was isolated several years ago and, recently, this population has been shown to be the only population of BM cells that contains HSCs in C57BL/Ka-Thy-1.1 mice. As few as 100 of these cells can radioprotect 95% to 100% of irradiated mice, resulting long-term multilineage reconstitution. In this study, we examined the reconstitution potential of irradiated mice transplanted with purified Thy-1.1lo Lin-Sca-1+ BM cells. Donor-derived peripheral blood (PB) white blood cells were detected as early as day 9 or 10 when 100 to 1,000 Thy-1.1lo Lin-Sca-1+ cells were used, with minor dose-dependent differences. The reappearance of platelets by day 14 and thereafter was also seen at all HSC doses (100 to 1,000 cells), with a slight dose-dependence. All studied HSC doses also allowed RBC levels to recover, although at the 100 cell dose a delay in hematocrit recovery was observed at day 14. When irradiated mice were transplanted with 500 Thy-1.1lo Lin-Sca-1+ cells compared with 1 x 10(6) BM cells (the equivalent amount of cells that contain 500 Thy-1.1lo Lin-Sca-1+ cells as well as progenitor and mature cells), very little difference in the kinetics of recovery of PB, white blood cells, platelets, and hematocrit was observed. Surprisingly, even when 200 Thy1.1lo Lin-Sca- 1+ cells were mixed with 4 x 10(5) Sca-1- BM cells in a competitive repopulation assay, most of the early (days 11 and 14) PB myeloid cells were derived from the HSC genotype, indicating the superiority of the Thy-1.1lo Lin-Sca-1+ cells over Sca-1- cells even in the early phases of myeloid reconstitution. Within the Thy-1.1lo Lin-Sca-1+ population, the Rhodamine 123 (Rh123)hi subset dominates in PB myeloid reconstitution at 10 to 14 days, only to be overtaken by the Rh123lo subset at 3 weeks and thereafter. These findings indicate that HSCs can account for the early phase of hematopoietic recovery, as well as sustained hematopoiesis, and raise questions about the role of non-HSC BM populations in the setting of BMT.

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Roles of Proteoglycans and Glycosaminoglycans in Wound Healing and Fibrosis

International Journal of Cell Biology ◽

10.1155/2015/834893 ◽

2015 ◽

Vol 2015 ◽

pp. 1-20 ◽

Cited By ~ 67

Author(s):

Shibnath Ghatak ◽

Edward V. Maytin ◽

Judith A. Mack ◽

Vincent C. Hascall ◽

Ilia Atanelishvili ◽

...

Keyword(s):

Wound Healing ◽

Blood Cells ◽

White Blood Cells ◽

Cell Types ◽

Repair Process ◽

Epithelial Layer ◽

Extracellular Molecules ◽

Living Tissues ◽

Type Of Injury

A wound is a type of injury that damages living tissues. In this review, we will be referring mainly to healing responses in the organs including skin and the lungs.Fibrosisis a process of dysregulated extracellular matrix (ECM) production that leads to a dense and functionally abnormal connective tissue compartment (dermis). In tissues such as the skin, the repair of the dermis after wounding requires not only thefibroblaststhat produce the ECM molecules, but also the overlying epithelial layer (keratinocytes), theendothelial cells, andsmooth muscle cellsof the blood vessel and white blood cells such asneutrophilsandmacrophages, which together orchestrate the cytokine-mediated signaling and paracrine interactions that are required to regulate the proper extent and timing of the repair process. This review will focus on the importance of extracellular molecules in the microenvironment, primarily the proteoglycans and glycosaminoglycan hyaluronan, and their roles in wound healing. First, we will briefly summarize the physiological, cellular, and biochemical elements of wound healing, including the importance of cytokine cross-talk between cell types. Second, we will discuss the role of proteoglycans and hyaluronan in regulating these processes. Finally, approaches that utilize these concepts as potential therapies for fibrosis are discussed.

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SAT-734 HSD3B1 Expression in the Human Immune System

Journal of the Endocrine Society ◽

10.1210/jendso/bvaa046.617 ◽

2020 ◽

Vol 4 (Supplement_1) ◽

Author(s):

Jeffrey M McManus ◽

Thi Hong Nga Le ◽

Booki Min ◽

Kewal Asosingh ◽

Joe Zein ◽

...

Keyword(s):

Prostate Cancer ◽

Blood Cells ◽

White Blood Cells ◽

Biologically Active ◽

Rapid Progression ◽

Human Immune System ◽

Specific Expression ◽

Asthma Patients ◽

Cell Type Specific Expression ◽

Key Enzyme

Abstract 3β-hydroxysteroid dehydrogenase-1 (3βHSD1), catalyzing conversion of dehydroepiandrosterone (DHEA) to Δ 4-androstenedione, is an essential enzyme in the pathway toward production of biologically active androgens such as dihydrotestosterone from the adrenally produced precursor DHEA sulfate, the most predominant steroid hormone in circulation. We previously identified, in the gene (HSD3B1) that encodes 3βHSD1, a germline gain-of-function missense-encoding variant that has now been validated in several studies as predicting more rapid progression in prostate cancer patients treated with gonadal testosterone deprivation. Production of androgens from adrenal precursors is important not just in the context of prostate cancer but in other physiologic and pathophysiologic processes, which could include asthma. Androgens are associated with better lung function in both asthma and healthy cohorts, and increasing circulating androgen levels in males help explain the switchover in asthma being more common in boys than girls but then more common in women than men. A main treatment for asthma, as well as other inflammatory processes, is administration of glucocorticoids, yet unresponsiveness to glucocorticoids in a subset of patients remains a major problem. Systemic glucocorticoid administration suppresses adrenally produced DHEA and DHEA-S, suggesting a depleted pool for biologically active androgen production as a mechanism for glucocorticoid resistance. Our surprising preliminary data support a link between glucocorticoid responsiveness and the more active HSD3B1 allele: patients homozygous for the adrenal-permissive HSD3B1(1245C) allele exhibit better response to oral glucocorticoids than those homozygous for the adrenal-restrictive HSD3B1(1245A), with heterozygous patients falling in the middle. This suggests a model in which patients with the more active (adrenal-permissive) form of 3βHSD1 produce sufficient androgens despite the depleted pool of precursor hormones whereas patients with the less active (adrenal-restrictive) form cannot. To further elucidate the link between 3βHSD1 activity and immune response, we assayed HSD3B1 expression in different types of white blood cells. Leukocyte subsets from asthma patients and healthy controls were purified using fluorescence-activated cell sorting, and HSD3B1 expression was analyzed using qPCR. White blood cells of several types expressed HSD3B1 at levels comparable to or greater than both prostate cancer and placental choriocarcinoma cell lines with very robust 3βHSD1 activity. Further determining the cell type specific expression and activity of this key enzyme is an important step in unraveling the link between the HSD3B1 polymorphism and asthma along with potentially many other immune processes.

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Serum Bilirubin level and its correlation with white blood cells as risk factor for cardiovascular disease in adult healthy population.

The Professional Medical Journal ◽

10.29309/tpmj/2020.27.12.4633 ◽

2020 ◽

Vol 27 (12) ◽

pp. 2622-2627

Author(s):

Kashif Rasheed Shaikh ◽

Shumaila Shaikh ◽

Shagufta Memon ◽

Umair Ali Soomro ◽

Shumail Saeed Siddiqui ◽

...

Keyword(s):

Cardiovascular Disease ◽

Risk Factor ◽

Blood Glucose ◽

Blood Cells ◽

Healthy Subjects ◽

Serum Bilirubin ◽

White Blood Cells ◽

Serum Total Bilirubin ◽

Healthy Population ◽

Cell Counts

Objectives: Evaluate serum bilirubin in adult healthy subjects and its correlation with white blood cells as risk factor for cardiovascular disease. Study Design: Cross- sectional study. Setting: Department of Pharmacology and Medicine, Suleman Roshan Medical College. Period: January - December 2017. Material & Methods: A sample of 100 male and 100 female adult healthy subjects were recruited for study protocol. Blood glucose, Serum creatinine, Blood lipids, liver enzyme levels, White blood cell counts and Serum bilirubin levels were analyzed. Pearson`s correlation was used for the correlation coefficient and its statistical significance for the association of serum bilirubin and white blood cells. Data variables were analyzed by statistical software SPSS (ver 21.0) at 95% CI (P ≤ 0.05). Results: Mean± SD age of male and female was found 47.02±8.42 and 48.59±7.80 years respectively (P=0.071). Serum bilirubin shows statistically significant negative correlation with blood glucose (r= - 0.257, P=0.0001) and LDLc (r= - 0.155, P=0.027) and WBC (r= - 0.871, P=0.0001). Conclusion: The present study shows the elevated serum total bilirubin levels within reference range correlated negatively with total white blood cells in adult healthy population.

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Blood

10.1093/med/9780198759782.003.0010 ◽

2018 ◽

Author(s):

Hugh Devlin ◽

Rebecca Craven

Keyword(s):

Blood Transfusion ◽

Blood Cell ◽

Blood Cells ◽

Final Section ◽

Dental Treatment ◽

White Blood Cells ◽

Cell Types ◽

Bleeding Disorders ◽

Blood Tests ◽

Coagulation Pathway

The blood in relation to dentistry is the topic of this chapter. Components of blood are described, including the blood cell types, their development and functions. Anaemias are discussed and their dental implications. Haemostasis and the coagulation pathway are described, followed by the bleeding disorders, how they are detected in blood tests and managed so as to avoid complications arising from dental treatment. The main malignancies of white blood cells are described in relation to dental care. The final section deals with blood and tissue types and their relevance to blood transfusion and tissue transplantation.

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STUDIES IN THE BLOOD CYTOLOGY OF THE RABBIT

Journal of Experimental Medicine ◽

10.1084/jem.53.5.695 ◽

1931 ◽

Vol 53 (5) ◽

pp. 695-714

Author(s):

Albert E. Casey

Keyword(s):

Red Blood Cells ◽

Significant Relationship ◽

Blood Cells ◽

Inverse Relationship ◽

White Blood Cells ◽

Cell Types ◽

Normal Male ◽

Hemoglobin Content ◽

Mean Values ◽

Observation Period

1. Statistical analyses have been made of the weekly variations in the blood counts of groups of normal rabbits to find whether there exists any relationship between the numerical changes occurring in the various cell types. Consecutive blood counts and differential white cell determinations on five groups of normal male rabbits comprising 45 animals in all were made at weekly intervals from October, 1927, to June, 1929, the number of observations on each group varying from eight to thirty-five. 2. The following relationships between the varying group means were found to be consistent and significant:—The number of the red blood cells varied with the amount of hemoglobin per cubic millimeter and with the number of lymphocytes. There was an inverse relationship between the amount of hemoglobin and the number of monocytes. The neutrophiles varied in number with the monocytes; the basophiles with the eosinophiles; and the eosinophiles with the monocytes. Other associations not always similar but of high significance as far as the combined values were concerned, were the relations of the red blood cells with the basophiles and the monocytes. The relations of the neutrophiles with the red blood cells and the hemoglobin were very irregular. 3. Significant association of the white blood cells with variations in the red blood cells and the hemoglobin content were observed. The numerical variations in the group means of the total white cells were associated with similar variations in the group means of the neutrophiles, the lymphocytes, the monocytes, the basophiles, and the eosinophiles almost to the degree of their numerical occurrence in the peripheral blood. 4. With the exception of the total white cells, approximately only half the variations in the group levels of the various cells and of the hemoglobin content can be accounted for on the basis of simultaneous associations with each other. 5. The red blood cells, the lymphocytes, and the basophiles as one group, the eosinophiles and the monocytes as another group, and the hemoglobin content and the neutrophiles as a third group, described a definite shift from a high to a low numerical value during the 2 year observation period. From the standpoint of the magnitude of the shift, the basophiles, the eosinophiles, the monocytes, the lymphocytes, and the red blood cells participated in the order mentioned. The neutrophiles were only slightly affected and the hemoglobin content relatively not at all. 6. No significant relationship was ever found, even in the component groups, between the weekly mean values of the following: the hemoglobin with the basophiles, the eosinophiles, or the lymphocytes; the neutrophiles with the basophiles or the eosinophiles; and the lymphocytes with the eosinophiles or the monocytes.

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