Your search keyword '"Ishizaka, Aya"' showing total 7 results

1. Sustained gut dysbiosis and intestinal inflammation show correlation with weight gain in person with chronic HIV infection on antiretroviral therapy.

Author

Ishizaka A, Koga M, Mizutani T, Suzuki Y, Matano T, and Yotsuyanagi H

Subjects

Humans, Male, Female, Longitudinal Studies, Middle Aged, Adult, Bacteria classification, Bacteria isolation & purification, HIV-1, Body Mass Index, Intestines microbiology, Anti-Retroviral Agents therapeutic use, Dysbiosis microbiology, HIV Infections drug therapy, HIV Infections microbiology, HIV Infections complications, Gastrointestinal Microbiome drug effects, Inflammation, Weight Gain drug effects

Abstract

Background: Person with human immunodeficiency virus type-1 (PWH) are prone to chronic inflammation due to residual viral production, even with antiretroviral therapy (ART), which increases the risk of age-related diseases. There is also limited information on changes in the intestinal environment of PWH during ART. In this longitudinal study, we investigated changes in the gut microbiota, persistence of chronic inflammation, interactions between the gut environment and inflammation, and metabolic changes in PWH using long-term ART., Results: We analyzed changes in clinical parameters and gut microbiota in 46 PWH over a mean period of 4 years to understand the influence of gut dysbiosis on inflammation. Overall, changes in the gut microbiota included a decrease in some bacteria, mainly involved in short-chain fatty acid (SCFA) production, and an increase in certain opportunistic bacteria. Throughout the study period, an increase in bacterial-specific metabolic activity was observed in the intestinal environment. Continued decline in certain bacteria belonging to the Clostridia class and metabolic changes in gut bacteria involved in glucose metabolism. Additionally, patients with a low abundance of Parabacteroides exhibited low bacterial alpha diversity and a significant increase in body mass index (BMI) during the study period. Monocyte chemoattractant protein 1, a marker of macrophage activation in the plasma, continued to increase from baseline (first stool collection timepoint) to follow-up (second stool collection timepoint), demonstrating a mild correlation with BMI. Elevated BMI was mild to moderately correlated with elevated levels of plasma interleukin 16 and chemokine ligand 13, both of which may play a role in intestinal inflammation and bacterial translocation within the gut microbiota. The rate of BMI increase correlated with the rate of decrease in certain SCFA-producing bacteria, such as Anaerostipes and Coprococcus 3., Conclusion: Our data suggest that despite effective ART, PWH with chronic inflammation exhibit persistent dysbiosis associated with gut inflammation, resulting in a transition to an intestinal environment with metabolic consequences. Moreover, the loss of certain bacteria such as Parabacteroides in PWH correlates with weight gain and may contribute to the development of metabolic diseases., (© 2024. The Author(s).)

Published

2024

2. Prolonged Gut Dysbiosis and Fecal Excretion of Hepatitis A Virus in Patients Infected with Human Immunodeficiency Virus.

Author

Ishizaka A, Koga M, Mizutani T, Lim LA, Adachi E, Ikeuchi K, Ueda R, Aoyagi H, Tanaka S, Kiyono H, Matano T, Aizaki H, Yoshio S, Mita E, Muramatsu M, Kanto T, Tsutsumi T, and Yotsuyanagi H

Subjects

Adult, Dysbiosis microbiology, Gastrointestinal Microbiome physiology, HIV Infections physiopathology, HIV Infections virology, HIV-1 pathogenicity, Hepatitis A physiopathology, Hepatitis A virology, Hepatitis A virus pathogenicity, Humans, Japan epidemiology, Male, Middle Aged, RNA, Ribosomal, 16S genetics, Viral Load, Virus Shedding, Dysbiosis virology, Feces virology, Hepatitis A complications

Abstract

Hepatitis A virus (HAV) causes transient acute infection, and little is known of viral shedding via the duodenum and into the intestinal environment, including the gut microbiome, from the period of infection until after the recovery of symptoms. Therefore, in this study, we aimed to comprehensively observe the amount of virus excreted into the intestinal tract, the changes in the intestinal microbiome, and the level of inflammation during the healing process. We used blood and stool specimens from patients with human immunodeficiency virus who were infected with HAV during the HAV outbreak in Japan in 2018. Moreover, we observed changes in fecal HAV RNA and quantified the plasma cytokine level and gut microbiome by 16S rRNA analysis from clinical onset to at least 6 months after healing. HAV was detected from clinical onset up to a period of more than 150 days. Immediately after infection, many pro-inflammatory cytokines were elicited, and some cytokines showed different behaviors. The intestinal microbiome changed significantly after infection (dysbiosis), and the dysbiosis continued for a long time after healing. These observations suggest that the immunocompromised state is associated with prolonged viral shedding into the intestinal tract and delayed recovery of the intestinal environment.

Published

2021

3. Gut microbiota signature of pathogen-dependent dysbiosis in viral gastroenteritis.

Author

Mizutani T, Aboagye SY, Ishizaka A, Afum T, Mensah GI, Asante-Poku A, Asandem DA, Parbie PK, Abana CZ, Kushitor D, Bonney EY, Adachi M, Hori H, Ishikawa K, Matano T, Taniguchi K, Opare D, Arhin D, Asiedu-Bekoe F, Ampofo WK, Yeboah-Manu D, Koram KA, Anang AK, and Kiyono H

Subjects

Adolescent, Adult, Bacteria classification, Biodiversity, Case-Control Studies, Child, Child, Preschool, Diarrhea microbiology, Diarrhea virology, Feces microbiology, Female, Ghana, Humans, Male, Phylogeny, Rotavirus physiology, Dysbiosis microbiology, Dysbiosis virology, Gastroenteritis microbiology, Gastroenteritis virology, Gastrointestinal Microbiome

Abstract

Acute gastroenteritis associated with diarrhea is considered a serious disease in Africa and South Asia. In this study, we examined the trends in the causative pathogens of diarrhea and the corresponding gut microbiota in Ghana using microbiome analysis performed on diarrheic stools via 16S rRNA sequencing. In total, 80 patients with diarrhea and 34 healthy adults as controls, from 2017 to 2018, were enrolled in the study. Among the patients with diarrhea, 39 were norovirus-positive and 18 were rotavirus-positive. The analysis of species richness (Chao1) was lower in patients with diarrhea than that in controls. Beta-diversity analysis revealed significant differences between the two groups. Several diarrhea-related pathogens (e.g., Escherichia-Shigella, Klebsiella and Campylobacter) were detected in patients with diarrhea. Furthermore, co-infection with these pathogens and enteroviruses (e.g., norovirus and rotavirus) was observed in several cases. Levels of both Erysipelotrichaceae and Staphylococcaceae family markedly differed between norovirus-positive and -negative diarrheic stools, and the 10 predicted metabolic pathways, including the carbohydrate metabolism pathway, showed significant differences between rotavirus-positive patients with diarrhea and controls. This comparative study of diarrheal pathogens in Ghana revealed specific trends in the gut microbiota signature associated with diarrhea and that pathogen-dependent dysbiosis occurred in viral gastroenteritis.

Published

2021

4. Correlation Analysis between Gut Microbiota Alterations and the Cytokine Response in Patients with Coronavirus Disease during Hospitalization.

Author

Mizutani, Taketoshi, Ishizaka, Aya, Koga, Michiko, Ikeuchi, Kazuhiko, Saito, Makoto, Adachi, Eisuke, Yamayoshi, Seiya, Iwatsuki-Horimoto, Kiyoko, Yasuhara, Atsuhiro, Kiyono, Hiroshi, Matano, Tetsuro, Suzuki, Yutaka, Tsutsumi, Takeya, Kawaoka, Yoshihiro, and Yotsuyanagi, Hiroshi

Subjects

COVID-19 pathogenesis, gut microbiota, immune response, inflammation, microbiome, Bacteria, COVID-19, Cytokines, Dysbiosis, Feces, Gastrointestinal Microbiome, Hospitalization, Humans, Inflammation, RNA, Ribosomal, 16S

Abstract

The role of the intestinal microbiota in coronavirus disease 2019 (COVID-19) is being elucidated. Here, we analyzed the temporal changes in microbiota composition and the correlation between inflammation biomarkers/cytokines and microbiota in hospitalized COVID-19 patients. We obtained stool specimens, blood samples, and patient records from 22 hospitalized COVID-19 patients and performed 16S rRNA metagenomic analysis of stool samples over the course of disease onset compared to 40 healthy individual stool samples. We analyzed the correlation between the changes in the gut microbiota and plasma proinflammatory cytokine levels. Immediately after admission, differences in the gut microbiota were observed between COVID-19 patients and healthy subjects, mainly including enrichment of the classes Bacilli and Coriobacteriia and decrease in abundance of the class Clostridia. The bacterial profile continued to change throughout the hospitalization, with a decrease in short-chain fatty acid-producing bacteria including Faecalibacterium and an increase in the facultatively anaerobic bacteria Escherichia-Shigella. A consistent increase in Eggerthella belonging to the class Coriobacteriia was observed. The abundance of the class Clostridia was inversely correlated with interferon-γ level and that of the phylum Actinobacteria, which was enriched in COVID-19, and was positively correlated with gp130/sIL-6Rb levels. Dysbiosis was continued even after 21 days from onset. The intestines tended to be an aerobic environment in hospitalized COVID-19 patients. Because the composition of the gut microbiota correlates with the levels of proinflammatory cytokines, this finding emphasizes the need to understand how pathology is related to the temporal changes in the specific gut microbiota observed in COVID-19 patients. IMPORTANCE There is growing evidence that the commensal microbiota of the gastrointestinal and respiratory tracts regulates local and systemic inflammation (gut-lung axis). COVID-19 is primarily a respiratory disease, but the involvement of microbiota changes in the pathogenesis of this disease remains unclear. The composition of the gut microbiota of patients with COVID-19 changed over time during hospitalization, and the intestines tended to be an aerobic environment in hospitalized COVID-19 patients. These changes in gut microbiota may induce increased intestinal permeability, called leaky gut, allowing bacteria and toxins to enter the circulatory system and further aggravate the systemic inflammatory response. Since gut microbiota composition correlates with levels of proinflammatory cytokines, this finding highlights the need to understand how pathology relates to the gut environment, including the temporal changes in specific gut microbiota observed in COVID-19 patients.

Published

2022

5. Dysbiotic Fecal Microbiome in HIV-1 Infected Individuals in Ghana.

Author

Parbie, Prince, Mizutani, Taketoshi, Ishizaka, Aya, Kawana-Tachikawa, Ai, Runtuwene, Lucky, Seki, Sayuri, Abana, Christopher, Kushitor, Dennis, Bonney, Evelyn, Ofori, Sampson, Uematsu, Satoshi, Imoto, Seiya, Kimura, Yasumasa, Kiyono, Hiroshi, Ishikawa, Koichi, Ampofo, William, and Matano, Tetsuro

Subjects

Ghana, HIV-1, dysbiosis, gut microbiome, sub‐Saharan Africa, Adult, Case-Control Studies, Cross-Sectional Studies, Dysbiosis, Female, Ghana, HIV Infections, HIV-1, Humans, Male, Microbiota

Abstract

HIV-1 infected individuals under antiretroviral therapy can control viremia but often develop non-AIDS diseases such as cardiovascular and metabolic disorders. Gut microbiome dysbiosis has been indicated to be associated with progression of these diseases. Analyses of gut/fecal microbiome in individual regions are important for our understanding of pathogenesis in HIV-1 infections. However, data on gut/fecal microbiome has not yet been accumulated in West Africa. In the present study, we examined fecal microbiome compositions in HIV-1 infected adults in Ghana, where approximately two-thirds of infected adults are females. In a cross-sectional case-control study, age- and gender-matched HIV-1 infected adults (HIV+; n = 55) and seronegative controls (HIV-; n = 55) were enrolled. Alpha diversity of fecal microbiome in HIV+ was significantly reduced compared to HIV- and associated with CD4 counts. HIV+ showed reduction in varieties of bacteria including Faecalibacterium, the most abundant in seronegative controls, but enrichment of Proteobacteria. Ghanaian HIV+ exhibited enrichment of Dorea and Blautia; bacteria groups whose depletion has been reported in HIV-1 infected individuals in several other cohorts. Furthermore, HIV+ in our cohort exhibited a depletion of Prevotella, a genus whose enrichment has recently been shown in men having sex with men (MSM) regardless of HIV-1 status. The present study revealed the characteristics of dysbiotic fecal microbiome in HIV-1 infected adults in Ghana, a representative of West African populations.

Published

2021

6. Role of Microbiota in Viral Infections and Pathological Progression.

Author

Mizutani, Taketoshi, Ishizaka, Aya, Koga, Michiko, Tsutsumi, Takeya, and Yotsuyanagi, Hiroshi

Subjects

*GUT microbiome, *DISEASE progression, *VIRAL hepatitis, *HEPATITIS A virus, *DYSBIOSIS, *VIRUS diseases

Abstract

Viral infections are influenced by various microorganisms in the environment surrounding the target tissue, and the correlation between the type and balance of commensal microbiota is the key to establishment of the infection and pathogenicity. Some commensal microorganisms are known to resist or promote viral infection, while others are involved in pathogenicity. It is also becoming evident that the profile of the commensal microbiota under normal conditions influences the progression of viral diseases. Thus, to understand the pathogenesis underlying viral infections, it is important to elucidate the interactions among viruses, target tissues, and the surrounding environment, including the commensal microbiota, which should have different relationships with each virus. In this review, we outline the role of microorganisms in viral infections. Particularly, we focus on gaining an in-depth understanding of the correlations among viral infections, target tissues, and the surrounding environment, including the commensal microbiota and the gut virome, and discussing the impact of changes in the microbiota (dysbiosis) on the pathological progression of viral infections. [ABSTRACT FROM AUTHOR]

Published

2022

7. Dysbiotic Fecal Microbiome in HIV-1 Infected Individuals in Ghana.

Author

Parbie, Prince Kofi, Mizutani, Taketoshi, Ishizaka, Aya, Kawana-Tachikawa, Ai, Runtuwene, Lucky Ronald, Seki, Sayuri, Abana, Christopher Zaab-Yen, Kushitor, Dennis, Bonney, Evelyn Yayra, Ofori, Sampson Badu, Uematsu, Satoshi, Imoto, Seiya, Kimura, Yasumasa, Kiyono, Hiroshi, Ishikawa, Koichi, Ampofo, William Kwabena, and Matano, Tetsuro

Subjects

HIV, AIDS, MEN who have sex with men, GUT microbiome

Abstract

HIV-1 infected individuals under antiretroviral therapy can control viremia but often develop non-AIDS diseases such as cardiovascular and metabolic disorders. Gut microbiome dysbiosis has been indicated to be associated with progression of these diseases. Analyses of gut/fecal microbiome in individual regions are important for our understanding of pathogenesis in HIV-1 infections. However, data on gut/fecal microbiome has not yet been accumulated in West Africa. In the present study, we examined fecal microbiome compositions in HIV-1 infected adults in Ghana, where approximately two-thirds of infected adults are females. In a cross-sectional case-control study, age- and gender-matched HIV-1 infected adults (HIV+; n = 55) and seronegative controls (HIV-; n = 55) were enrolled. Alpha diversity of fecal microbiome in HIV+ was significantly reduced compared to HIV- and associated with CD4 counts. HIV+ showed reduction in varieties of bacteria including Faecalibacterium , the most abundant in seronegative controls, but enrichment of Proteobacteria. Ghanaian HIV+ exhibited enrichment of Dorea and Blautia ; bacteria groups whose depletion has been reported in HIV-1 infected individuals in several other cohorts. Furthermore, HIV+ in our cohort exhibited a depletion of Prevotella , a genus whose enrichment has recently been shown in men having sex with men (MSM) regardless of HIV-1 status. The present study revealed the characteristics of dysbiotic fecal microbiome in HIV-1 infected adults in Ghana, a representative of West African populations. [ABSTRACT FROM AUTHOR]

Published

2021