Your search keyword '"Appiah, Michael"' showing total 12 results

1. Reactive case detection strategy for malaria control and elimination: A 12 year systematic review and meta-analysis from 25 malaria-endemic countries

Author

Aidoo, Ebenezer Krampah, Aboagye, Frank Twum, Botchway, Felix Abekah, Osei-Adjei, George, Appiah, Michael, Duku-Takyi, Ruth, Sakyi, Samuel Asamoah, Amoah, Linda, Badu, Kingsley, Asmah, Richard Harry, Lawson, Bernard Walter, and Krogfelt, Karen Angeliki

Published

2023

2. Emergence of Intergenogroup Reassortant G9P[4] Strains Following Rotavirus Vaccine Introduction in Ghana.

Author

Doan, Yen Hai, Dennis, Francis Ekow, Takemae, Nobuhiro, Haga, Kei, Shimizu, Hiroyuki, Appiah, Michael Gyasi, Lartey, Belinda Larteley, Damanka, Susan Afua, Hayashi, Takaya, Suzuki, Toshihiko, Kageyama, Tsutomu, Armah, George Enyimah, and Katayama, Kazuhiko

Subjects

ROTAVIRUSES, ROTAVIRUS vaccines, WHOLE genome sequencing, NUCLEOTIDE sequencing, GLOBAL burden of disease, VACCINATION

Abstract

Rotavirus (RVA) is a leading cause of childhood gastroenteritis. RVA vaccines have reduced the global disease burden; however, the emergence of intergenogroup reassortant strains is a growing concern. During surveillance in Ghana, we observed the emergence of G9P[4] RVA strains in the fourth year after RVA vaccine introduction. To investigate whether Ghanaian G9P[4] strains also exhibited the DS-1-like backbone, as seen in reassortant G1/G3/G8/G9 strains found in other countries in recent years, this study determined the whole genome sequences of fifteen G9P[4] and two G2P[4] RVA strains detected during 2015–2016. The results reveal that the Ghanaian G9P[4] strains exhibited a double-reassortant genotype, with G9-VP7 and E6-NSP4 genes on a DS-1-like backbone (G9-P[4]-I2-R2-C2-M2-A2-N2-T2-E6-H2). Although they shared a common ancestor with G9P[4] DS-1-like strains from other countries, further intra-reassortment events were observed among the original G9P[4] and co-circulating strains in Ghana. In the post-vaccine era, there were significant changes in the distribution of RVA genotype constellations, with unique strains emerging, indicating an impact beyond natural cyclical fluctuations. However, reassortant strains may exhibit instability and have a limited duration of appearance. Current vaccines have shown efficacy against DS-1-like strains; however, ongoing surveillance in fully vaccinated children is crucial for addressing concerns about long-term effectiveness. [ABSTRACT FROM AUTHOR]

Published

2023

3. Joint COVID-19 Contact Tracing and Malaria Reactive Case Detection as Efficient Strategies for Disease Control.

Author

Aidoo, Ebenezer Krampah, Squire, Daniel Sai, Atuahene, Obed Ohene-Djan, Badu, Kingsley, Botchway, Felix Abekah, Osei-Adjei, George, Sakyi, Samuel Asamoah, Amoah, Linda, Appiah, Michael, Duku-Takyi, Ruth, Asmah, Richard Harry, Lawson, Bernard Walter, and Krogfelt, Karen Angeliki

Subjects

COVID-19 pandemic, CONTACT tracing, STAY-at-home orders, MIXED infections, MALARIA

Abstract

Coronavirus disease 2019 (COVID-19) contact tracing and malaria reactive case detection (RACD) are effective strategies for disease control. The emergence of the COVID-19 pandemic and the global attention COVID-19 has received in the recent past and present has hampered malaria control efforts. Among these are difficulties in finding and treating malaria-infected individuals in hypoendemic settings in the community, due to lockdown restrictions by countries. It is common knowledge that malaria cases that cannot be identified remain untreated. To sustain the gains made in malaria control, we proposed a two-pronged hybrid approach for COVID-19 contact tracing and malaria RACD in communities with COVID-19 and malaria coinfections. Such an approach would equally factor the burden of malaria cases and COVID-19 to support an effective strategy for responding to current and future pandemics. [ABSTRACT FROM AUTHOR]

Published

2022

4. Quercetin Reduces Inflammation and Protects Gut Microbiota in Broilers.

Author

Sun, Lei, Guo, Lewei, Xu, Gaoqing, Li, Zhiqiang, Appiah, Michael Osei, Yang, Lianyu, and Lu, Wenfa

Subjects

QUERCETIN, GUT microbiome, TUMOR necrosis factors, BROILER chickens, DIETARY supplements, TOLL-like receptors

Abstract

The aim of this study was to investigate the effects of quercetin on inflammatory response and intestinal microflora in broiler chicken jejuna. A total of 120 broiler chickens were allocated into 3 groups: saline-challenged broilers fed a basal diet (CTR group), lipopolysaccharide (LPS)-challenged broilers fed a basal diet (L group) and LPS-challenged broilers fed a basal diet supplemented with 200 mg/kg quercetin (LQ group). Our results showed that LPS significantly increased expression of tumor necrosis factor (TNF)-α, interleukin (IL)-1β, IL-6, IL-8, interferon (IFN)-γ, toll-like receptor (TLR)-4, Bax, Caspase-3 and diamine oxidase activity (DAO), and decreased expression of zona occludens-1 (ZO-1), Occludin and Bcl-2 in the jejunum, while dietary quercetin prevented the adverse effects of LPS injection. LPS injection significantly decreased the number of Actinobacteria, Armatimonadetes and Fibrobacteriae at the phylum level when compared to the CTR group. Additionally, at genus level, compared with the CTR group, the abundance of Halomonas, Micromonospora, Nitriliruptor, Peptococcus, Rubellimicrobium, Rubrobacter and Slaclda in L group was significantly decreased, while dietary quercetin restored the numbers of these bacteria. In conclusion, our results demonstrated that dietary quercetin could alleviate inflammatory responses of broiler chickens accompanied by modulating jejunum microflora. [ABSTRACT FROM AUTHOR]

Published

2022

5. Association between Transcription Factor 7-like-2 Polymorphisms and Type 2 Diabetes Mellitus in a Ghanaian Population.

Author

Obirikorang, Christian, Adu, Evans Asamoah, Anto, Enoch Odame, Acheampong, Emmanuel, Quaye, Lawrence, Amoah, Brodrick Yeboah, Annani-Akollor, Max Efui, Kwakye, Aaron Siaw, Fokuoh, Foster, Appiah, Michael, Yaw Nyarko, Eric Nana, Aidoo, Freeman, Adua, Eric, Afrifa-Yamoah, Ebenezer, Balmer, Lois, and Wei Wang

Subjects

TRANSCRIPTION factors, TYPE 2 diabetes, GHANAIANS, SINGLE nucleotide polymorphisms, BLOOD pressure

Abstract

Type 2 diabetes mellitus (T2DM) has been strongly associated with single nucleotide polymorphisms (SNPs) in the TCF7L2 gene. This study investigated the association between rs12255372, rs7903146 in the TCF7L2 gene and T2DM in a Ghanaian population. A case-control study design was used for this study. A total of 106 T2DM patients and 110 control participants were selected. Basic data collected included body mass index, blood pressure and socio-demographics. Fasting blood samples were collected and processed for: serum lipid analysis, plasma glucose estimation and plasma HbA1c estimation. Parts of the whole blood samples were used for DNA extraction using a modified saltingout method. Common and allele-specific primers were designed for genotyping using the Modified Tetra-Primer Amplification assay. Associations were evaluated using logistic regression models. The rs7903146 risk variant was significantly associated with 2.16 vs. 4.06 increased odds for T2DM in patients <60 years vs. ≥60 years. Both rs7903146 and rs12255372 were significantly associated with increased odds of T2DM in women, overweight/obese, T2DM negative family history (T2DM-NFH) and lowHDL-C. In a multivariate model, rs7903146 but not rs12255372 was significantly associated with 2.18, 5.01 and 2.25 increased odds of T2DM, under the codominant, recessive and additive model, respectively (p < 0.05). The association between rs7903146 and rs12255372 with T2DM is more highly associated in a subgroup—women and those with T2DM-NFH, yet who have cardiometabolic risk. [ABSTRACT FROM AUTHOR]

Published

2021

6. Cellular and Exosomal Regulations of Sepsis-Induced Metabolic Alterations.

Author

Appiah, Michael G., Park, Eun Jeong, Akama, Yuichi, Nakamori, Yuki, Kawamoto, Eiji, Gaowa, Arong, and Shimaoka, Motomu

Subjects

*METABOLIC regulation, *FIBROBLASTS, *EXOSOMES, *ELECTRIC power consumption, *MULTIPLE organ failure, *CANCER invasiveness, *CELL communication

Abstract

Sepsis is a sustained systemic inflammatory condition involving multiple organ failures caused by dysregulated immune response to infections. Sepsis induces substantial changes in energy demands at the cellular level leading to metabolic reprogramming in immune cells and stromal cells. Although sepsis-associated organ dysfunction and mortality have been partly attributed to the initial acute hyperinflammation and immunosuppression precipitated by a dysfunction in innate and adaptive immune responses, the late mortality due to metabolic dysfunction and immune paralysis currently represent the major problem in clinics. It is becoming increasingly recognized that intertissue and/or intercellular metabolic crosstalk via endocrine factors modulates maintenance of homeostasis, and pathological events in sepsis and other inflammatory diseases. Exosomes have emerged as a novel means of intercellular communication in the regulation of cellular metabolism, owing to their capacity to transfer bioactive payloads such as proteins, lipids, and nucleic acids to their target cells. Recent evidence demonstrates transfer of intact metabolic intermediates from cancer-associated fibroblasts via exosomes to modify metabolic signaling in recipient cells and promote cancer progression. Here, we review the metabolic regulation of endothelial cells and immune cells in sepsis and highlight the role of exosomes as mediators of cellular metabolic signaling in sepsis. [ABSTRACT FROM AUTHOR]

Published

2021

7. The Spike Glycoprotein of SARS-CoV-2 Binds to β1 Integrins Expressed on the Surface of Lung Epithelial Cells.

Author

Park, Eun Jeong, Myint, Phyoe Kyawe, Appiah, Michael Gyasi, Darkwah, Samuel, Caidengbate, Siqingaowa, Ito, Atsushi, Matsuo, Eri, Kawamoto, Eiji, Gaowa, Arong, Shimaoka, Motomu, and Tachedjian, Gilda

Subjects

EPITHELIAL cells, INTEGRINS, SARS-CoV-2, VIRAL envelope proteins, ANGIOTENSIN converting enzyme, VIRUS diseases, CARRIER proteins

Abstract

The spike glycoprotein attached to the envelope of severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) binds to and exploits angiotensin-converting enzyme 2 (ACE2) as an entry receptor to infect pulmonary epithelial cells. A subset of integrins that recognize the arginyl–glycyl–aspartic acid (RGD) sequence in the cognate ligands has been predicted in silico to bind the spike glycoprotein and, thereby, to be exploited for viral infection. Here, we show experimental evidence that the β1 integrins predominantly expressed on human pulmonary epithelial cell lines and primary mouse alveolar epithelial cells bind to this spike protein. The cellular β1 integrins support adhesive interactions with the spike protein independently of ACE2, suggesting the possibility that the β1 integrins may function as an alternative receptor for SARS-CoV-2, which could be targeted for the prevention of viral infections. [ABSTRACT FROM AUTHOR]

Published

2021

8. The Lectin-Like Domain of Thrombomodulin Inhibits β1 Integrin-Dependent Binding of Human Breast Cancer-Derived Cell Lines to Fibronectin.

Author

Kawamoto, Eiji, Nago, Nodoka, Okamoto, Takayuki, Gaowa, Arong, Masui-Ito, Asami, Akama, Yuichi, Darkwah, Samuel, Appiah, Michael Gyasi, Myint, Phyoe Kyawe, Obeng, Gideon, Ito, Atsushi, Caidengbate, Siqingaowa, Esumi, Ryo, Yamaguchi, Takanori, Park, Eun Jeong, Imai, Hiroshi, Shimaoka, Motomu, and Amiral, Jean

Subjects

FIBRONECTINS, EXTRACELLULAR matrix proteins, THROMBOMODULIN, CELL lines, CHIMERIC proteins, CELL adhesion, EXTRACELLULAR matrix

Abstract

Thrombomodulin is a molecule with anti-coagulant and anti-inflammatory properties. Recently, thrombomodulin was reported to be able to bind extracellular matrix proteins, such as fibronectin and collagen; however, whether thrombomodulin regulates the binding of human breast cancer-derived cell lines to the extracellular matrix remains unknown. To investigate this, we created an extracellular domain of thrombomodulin, TMD123-Fc, or domain deletion TM-Fc proteins (TM domain 12-Fc, TM domain 23-Fc) and examined their bindings to fibronectin in vitro by ELISA. The lectin-like domain of thrombomodulin was found to be essential for the binding of the extracellular domain of thrombomodulin to fibronectin. Using a V-well cell adhesion assay or flow cytometry analysis with fluorescent beads, we found that both TMD123-Fc and TMD12-Fc inhibited the binding between β1 integrin of human breast cancer-derived cell lines and fibronectin. Furthermore, TMD123-Fc and TMD12-Fc inhibited the binding of activated integrins to fibronectin under shear stress in the presence of Ca2+ and Mg2+ but not under strong integrin-activation conditions in the presence of Mg2+ without Ca2+. This suggests that thrombomodulin Fc fusion protein administered exogenously at a relatively early stage of inflammation may be applied to the development of new therapies that inhibit the binding of β1 integrin of breast cancer cell lines to fibronectin. [ABSTRACT FROM AUTHOR]

Published

2021

9. Intestinal Epithelium-Derived Luminally Released Extracellular Vesicles in Sepsis Exhibit the Ability to Suppress TNF-α and IL-17A Expression in Mucosal Inflammation.

Author

Appiah, Michael G., Park, Eun Jeong, Darkwah, Samuel, Kawamoto, Eiji, Akama, Yuichi, Gaowa, Arong, Kalsan, Manisha, Ahmad, Shandar, and Shimaoka, Motomu

Subjects

*EXTRACELLULAR vesicles, *REVERSE transcriptase polymerase chain reaction, *SEPSIS

Abstract

Sepsis is a systemic inflammatory disorder induced by a dysregulated immune response to infection resulting in dysfunction of multiple critical organs, including the intestines. Previous studies have reported contrasting results regarding the abilities of exosomes circulating in the blood of sepsis mice and patients to either promote or suppress inflammation. Little is known about how the gut epithelial cell-derived exosomes released in the intestinal luminal space during sepsis affect mucosal inflammation. To study this question, we isolated extracellular vesicles (EVs) from intestinal lavage of septic mice. The EVs expressed typical exosomal (CD63 and CD9) and epithelial (EpCAM) markers, which were further increased by sepsis. Moreover, septic-EV injection into inflamed gut induced a significant reduction in the messaging of pro-inflammatory cytokines TNF-α and IL-17A. MicroRNA (miRNA) profiling and reverse transcription and quantitative polymerase chain reaction (RT-qPCR) revealed a sepsis-induced exosomal increase in multiple miRNAs, which putatively target TNF-α and IL-17A. These results imply that intestinal epithelial cell (IEC)-derived luminal EVs carry miRNAs that mitigate pro-inflammatory responses. Taken together, our study proposes a novel mechanism by which IEC EVs released during sepsis transfer regulatory miRNAs to cells, possibly contributing to the amelioration of gut inflammation. [ABSTRACT FROM AUTHOR]

Published

2020

10. Erratum: Appiah, M.O., et al. Microflora in the Reproductive Tract of Cattle: A Review (Running Title: The Microflora and Bovine Reproductive Tract), Agriculture 2020, 10, 232.

Author

Appiah, Michael Osei, Wang, Jun, and Lu, Wenfa

Subjects

GENITALIA, FEMALE reproductive organs, CATTLE, AGRICULTURE, BOS

Published

2020

11. Microflora in the Reproductive Tract of Cattle: A Review (Running Title: The Microflora and Bovine Reproductive Tract).

Author

Appiah, Michael Osei, Wang, Jun, and Lu, Wenfa

Subjects

GENITALIA, BOTANY, FEMALE reproductive organs, UTERINE diseases, BEEF cattle, PAPILLOMAVIRUSES, CATTLE, NEOSPORA caninum

Abstract

There are microbial communities in and on the bodies of all multicellular organisms, and this microbiota can have a significant impact on the biology of the host. Most studies have focused on the microbiome of the skin, mouth, and gut, whereas relatively little is known about the reproductive microbiome. From the perspective of the bovine reproductive tract, uterine diseases such as metritis and endometritis are traditionally viewed to result only from interactions occurring between the host animal and pathogens originating from either the environment or ascension from the vagina. This outdated opinion has been refuted by recent advanced studies that propose that, in addition to bacteria colonization through the extrinsic and ascending pathways to the vagina, bacteria can also move from the gut to the uterus, which is also associated with reproductive tract disorders. This has led to the concept of the "endogenous route hypothesis", which has vital inferences for comprehending the etiology of metritis and endometritis. Furthermore, it has opened up the possibility of developing new prophylactic and therapeutic agents as alternatives to antimicrobial agents. In addition, the unveiling of next-generation sequencing technology makes it more convenient to perform detailed sequencing and analysis of data on the cervical, vaginal, and uterine flora and to further study uncultured bacteria in these niches—most importantly, the cervical niche, which previously was thought to have lower bacterial complexity. Research conducted to date has proven that the composition of microflora in a community varies widely between environmental sites, host niches, and health status. Furthermore, it has also been suggested that the occurrence of endometritis in the dairy and beef cattle reproductive tract is neither casual nor indirect but multifactorial. Whether disturbance in the variety of the microflora in the reproductive tract (dysbiosis) has a role in determining the sensitivity to metritis and endometritis is not yet known. This article outlines the current progress in understanding the microflora with regards to the bovine reproductive tract. The compositions of microflora in various niches of the reproductive tract are briefly elucidated. In addition, the functional role of these microflora communities in the reproductive tract is discussed, with particular emphasis on the association of bacterial flora with reproductive disorders and failures. Finally, prophylaxis and therapeutic approaches based on the new comprehension of the effects of antimicrobials, probiotics, and bacteriophages on the composition of the reproductive tract microflora are also considered. [ABSTRACT FROM AUTHOR]

Published

2020

12. Differential Roles of Dendritic Cells in Expanding CD4 T Cells in Sepsis.

Author

Darkwah, Samuel, Nago, Nodoka, Appiah, Michael G., Myint, Phyoe Kyawe, Kawamoto, Eiji, Shimaoka, Motomu, and Park, Eun Jeong

Subjects

T cells, DENDRITIC cells, SEPSIS, LYMPH nodes, IMMUNE response

Abstract

Sepsis is a systemically dysregulated inflammatory syndrome, in which dendritic cells (DCs) play a critical role in coordinating aberrant immunity. The aim of this study is to shed light on the differential roles played by systemic versus mucosal DCs in regulating immune responses in sepsis. We identified a differential impact of the systemic and mucosal DCs on proliferating allogenic CD4 T cells in a mouse model of sepsis. Despite the fact that the frequency of CD4 T cells was reduced in septic mice, septic mesenteric lymph node (MLN) DCs proved superior to septic spleen (SP) DCs in expanding allogeneic CD4 T cells. Moreover, septic MLN DCs markedly augmented the surface expression of MHC class II and CD40, as well as the messaging of interleukin-1β (IL-1β). Interestingly, IL-1β-treated CD4 T cells expanded in a dose-dependent manner, suggesting that this cytokine acts as a key mediator of MLN DCs in promoting septic inflammation. Thus, mucosal and systemic DCs were found to be functionally different in the way CD4 T cells respond during sepsis. Our study provides a molecular basis for DC activity, which can be differential in nature depending on location, whereby it induces septic inflammation or immune-paralysis. [ABSTRACT FROM AUTHOR]

Published

2019