An Epidemic of Dengue Virus Serotype-4 during the 2015 - 2017: the Emergence of a Novel Genotype IIa of DENV-4 in the Philippines.

Volume 72 no 6, p.413-419, 2019. Page 418, Acknowledgments "We would like to thank all staff and members of the Department of Virology, NEKKEN, Nagasaki University, Japan for providing technical support and advice. Our special thanks to the staff of the Pavilion II and the Central Laboratory of San Lazaro Hospital for their kind assistance during patient recruitment and data collection. We are also very grateful for the support of the Senior Vice President and Head of Research and Biotechnology (R&B) Group of St. Luke's Medical Center, Dr. Isaac David E. Ampil II. Finally, our sincere thanks to the members of R&B's dengue research group for kindly preparing the samples to be transported to NEKKEN." should read "This research was supported by grants from the Japan Agency for Medical Research and Development (AMED) under Grant Number JP18fm0108001, JP19fm0108001 (Japan Initiative for Global Research Network on Infectious Diseases (J-GRID)), AMED Research on Emerging and Re-emerging Infectious Diseases (19fk0108035j0003) and e-ASIA Joint Research Program and; Philippine Council for Health Research and Development (PCHRD) of the Department of Science and Technology (DOST), Philippines, with partial support from the Research and Biotechnology of St. Luke's Medical Center (R&B-SLMC), Philippines (Project No. 07-024). Funders have no role in the study design, data collection, and interpretation, or the decision to submit this work for publication. We would like to thank all staff and members of the Department of Virology, Institute of Tropical Medicine (NEKKEN), Nagasaki University, Japan, for providing technical support and advice. Our special thanks to the staff of the Pavilion II and the Central Laboratory of San Lazaro Hospital for their kind assistance during patient recruitment and data collection. We are also very grateful for the support of the Senior Vice President and Head of Research and Biotechnology (R&B) Group of St. Luke's Medical Center, Dr. Isaac David E. Ampil II. Finally, our sincere thanks to the members of R&B's Dengue Research Group for kindly preparing the samples to be transported to NEKKEN."

An Epidemic of Dengue Virus Serotype-4 during the 2015 - 2017: the Emergence of a Novel Genotype IIa of DENV-4 in the Philippines.

Dengue remains a major public health problem in the Philippines. In this study, we determined the circulating dengue serotypes in the Philippines during the 2015-2017 outbreaks using a total of 678 serum samples from 537 individual dengue patients. Following an increase in the number of DENV-4 patients in recent years, we conducted a comprehensive molecular and epidemiology analysis on the DENV-4 strains isolated recently in the Philippines. Two genotypes of DENV-4 have been isolated in the Philippines since 1956: GI and GIIa. The GIIa DENV strains that were isolated in the present study were closely related to a distinct group of GIIa strains that were isolated from the Philippines in 2004. A majority of the isolates of this sub-group have been identified in the Philippines, suggesting that this lineage may have been introduced in the Philippines, and evolved to form the distinct sub-group within GIIa strains. The increase in DENV-4 activity also coincided with the appearance of the GIIa subgroup and the phasing-out of the GI lineage in the Philippines. Overall, our study demonstrates a shift in DENV-4 genotype and epidemic dynamics in a hyperendemic region, suggesting the importance of DENV genetic evolution in establishing and sustaining transmission.

Isolation and characterization of two phenotypically distinct dengue type-2 virus isolates from the same dengue hemorrhagic Fever patient.

Dengue is the one of the most prevalent arthropod-borne viral diseases. Dengue virus circulates between humans and mosquitoes, and causes a wide range of disease in humans. To elucidate the link between the cell tropism of dengue virus and its pathogenesis, peripheral blood cells of infected patients were analyzed by flow cytometry. The dengue virus antigen was detected in peripheral CD19+ cells (B cells) in one dengue hemorrhagic fever patient. Two dengue type-2 virus isolates were recovered from this patient using mosquito cell line C6/36 and human hematopoietic cell line K562, and designated VNHCM18-C/02 and VNHCM18-K/02, respectively. VNHCM18-K/02 exhibited strong binding ability and high infectivity to a B-lymphocyte cell line (RPMI8226) but showed poor growth in C6/36 cells, while VNHCM18-C/02 more efficiently and dominantly grew in C6/36 cells but did not efficiently bind to nor infect the B-cell line. Three amino acid differences were detected; one in an envelope protein (E-62) and two in nonstructural proteins. The distinct cell-binding to RPMI8226 was attributed to the difference between the two isolates in envelope protein E-62. Thus, we isolated two dengue type-2 virus variants with different cell-tropisms from the same patient, suggesting possible co-circulation in the patient.