Your search keyword '"Hamidah Raduwan"' showing total 7 results

1. Aedes aegypti adiponectin receptor-like protein signaling facilitates Zika virus infection

Author

Tse-Yu Chen, Alejandro Marín-López, Hamidah Raduwan, and Erol Fikrig

Subjects

mosquito, Zika virus, adiponectin receptor, trypsin, midgut, Aedes aegypti, Microbiology, QR1-502

Abstract

ABSTRACT The Aedes aegypti mosquito plays a critical role in the transmission of viral diseases, including Zika virus, which poses significant public health challenges. Understanding the complex interactions between mosquitoes and viruses is paramount for the development of effective control strategies. In this study, we demonstrate that silencing the A. aegypti adiponectin receptor-like protein (AaARLP) results in a reduction of Zika virus infection. Transcriptomic analysis identified alterations in several trypsin genes and further revealed that AaARLP-knockdown mosquitoes had diminished trypsin activity. Moreover, silencing of selected trypsins resulted in a similar delay in Zika virus infection in mosquitoes, further highlighting the connection between the AaARLP and trypsin. Overall, our findings demonstrate that AaARLP signaling is important for Zika virus infection of A. aegypti.IMPORTANCEArboviruses pose a significant threat to public health, with mosquitoes, especially Aedes aegypti, being a major vector for their transmission. Gaining insight into the complex interaction between mosquitoes and viruses is essential to build successful control strategies. In this study, we identified a novel pathway connecting the A. aegypti adiponectin receptor-like protein and its association with trypsin, key enzymes involved in blood digestion. Furthermore, we demonstrated the significance of signaling via the adiponectin receptor-like protein in virus infection within the mosquito. Together, our discoveries illuminate mosquito metabolic pathways essential in viral infection.

Published

2024

2. Anopheles gambiae lacking AgTRIO probe inefficiently on a mammalian host

Author

Yu-Min Chuang, Yuemei Dong, Helen Stone, Selma Abouneameh, Xu-Dong Tang, Hamidah Raduwan, George Dimopoulos, and Erol Fikrig

Subjects

CP: Metabolism, Biology (General), QH301-705.5

Abstract

Summary: Malaria is initiated as Plasmodium sporozoites are injected into the dermis when an infected mosquito probes on a vertebrate host for a blood meal. Factors in the mosquito saliva, such as AgTRIO, can alter the ability of Anopheles gambiae to transmit Plasmodium. We therefore used CRISPR-Cas9-mediated genome editing to generate AgTRIO knockout (KO) A. gambiae and examined the ability of these mosquitoes to probe on a vertebrate host. AgTRIO KO mosquitoes showed a diminished host probing capacity and required repetitive probing to locate a blood resource to complete a blood meal. This increased probing resulted in enhanced Plasmodium transmission to the vertebrate host. Our data demonstrate the importance of the A. gambiae saliva protein AgTRIO in probing and its influence on the ability of mosquitoes to transmit malaria.

Published

2024

3. Zika virus exists in enterocytes and enteroendocrine cells of the Aedes aegypti midgut

Author

Tse-Yu Chen, Hamidah Raduwan, Alejandro Marín-López, Yingjun Cui, and Erol Fikrig

Subjects

entomology, virology, Science

Abstract

Summary: The Aedes aegypti midgut is crucial for blood digestion, nutrition, reproduction, and pathogen interaction. Using single-cell RNA sequencing, we explored virus infection and transcriptomic changes at the cellular level. We identified 12 distinct cell clusters in the Ae. aegypti midgut post-Zika virus infection, including intestinal stem cells, enteroblasts, enteroendocrine cells (EE), and enterocytes (ECs). The virus was found mainly in specific subsets of ECs and EE. Infection altered transcriptional profiles related to metabolism, signaling, and immune responses. Functional studies highlighted three significantly differentially expressed genes in infected cells. Notably, silencing apolipophorin III reduced virus RNA copy number in the midgut, emphasizing the role of specific genes in viral infection. These findings enhance our understanding of mosquito midgut cell processes during Zika virus infection and suggest potential targets for vector control.

Published

2024

4. A mosquito AgTRIO mRNA vaccine contributes to immunity against malaria

Author

Yu-Min Chuang, Mohamad-Gabriel Alameh, Selma Abouneameh, Hamidah Raduwan, Michel Ledizet, Drew Weissman, and Erol Fikrig

Subjects

Immunologic diseases. Allergy, RC581-607, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Abstract Malaria begins when an infected mosquito injects saliva containing Plasmodium sporozoites into the skin of a vertebrate host. To prevent malaria, vaccination is the most effective strategy and there is an urgent need for new strategies to enhance current pathogen-based vaccines. Active or passive immunization against a mosquito saliva protein, AgTRIO, contributes to protection against Plasmodium infection of mice. In this study, we generated an AgTRIO mRNA-lipid nanoparticle (LNP) and assessed its potential usefulness as a vaccine against malaria. Immunization of mice with an AgTRIO mRNA-LNP generated a robust humoral response, including AgTRIO IgG2a isotype antibodies that have been associated with protection. AgTRIO mRNA-LNP immunized mice exposed to Plasmodium berghei-infected mosquitoes had markedly reduced initial Plasmodium hepatic infection levels and increased survival compared to control mice. In addition, as the humoral response to AgTRIO waned over 6 months, additional mosquito bites boosted the AgTRIO IgG titers, including IgG1 and IgG2a isotypes, which offers a unique advantage compared to pathogen-based vaccines. These data will aid in the generation of future malaria vaccines that may include both pathogen and vector antigens.

Published

2023

5. Mosquito Salivary Proteins and Arbovirus Infection: From Viral Enhancers to Potential Targets for Vaccines

Author

Alejandro Marín-López, Hamidah Raduwan, Tse-Yu Chen, Sergio Utrilla-Trigo, David P. Wolfhard, and Erol Fikrig

Subjects

mosquito saliva, immune responses, arboviruses, vaccines, Medicine

Abstract

Arthropod-borne viruses present important public health challenges worldwide. Viruses such as DENV, ZIKV, and WNV are of current concern due to an increasing incidence and an expanding geographic range, generating explosive outbreaks even in non-endemic areas. The clinical signs associated with infection from these arboviruses are often inapparent, mild, or nonspecific, but occasionally develop into serious complications marked by rapid onset, tremors, paralysis, hemorrhagic fever, neurological alterations, or death. They are predominately transmitted to humans through mosquito bite, during which saliva is inoculated into the skin to facilitate blood feeding. A new approach to prevent arboviral diseases has been proposed by the observation that arthropod saliva facilitates transmission of pathogens. Viruses released within mosquito saliva may more easily initiate host invasion by taking advantage of the host’s innate and adaptive immune responses to saliva. This provides a rationale for creating vaccines against mosquito salivary proteins, especially because of the lack of licensed vaccines against most of these viruses. This review aims to provide an overview of the effects on the host immune response by the mosquito salivary proteins and how these phenomena alter the infection outcome for different arboviruses, recent attempts to generate mosquito salivary-based vaccines against flavivirus including DENV, ZIKV, and WNV, and the potential benefits and pitfalls that this strategy involves.

Published

2023

6. RhoGAP RGA-8 supports morphogenesis in C. elegans by polarizing epithelia

Author

Hamidah Raduwan, Shashikala Sasidharan, Luigy Cordova Burgos, Andre G. Wallace, and Martha C. Soto

Subjects

morphogenesis, rhogap, cdc-42, cell migration, Science, Biology (General), QH301-705.5

Abstract

CDC-42 regulation of non-muscle myosin/NMY-2 is required for polarity maintenance in the one-cell embryo of Caenorhabditis elegans. CDC-42 and NMY-2 regulate polarity throughout embryogenesis, but their contribution to later events of morphogenesis are less understood. We have shown that epidermal enclosure requires the GTPase CED-10/Rac1 and WAVE/Scar complex, its effector, to promote protrusions that drive enclosure through the branch actin regulator Arp2/3. Our analysis here of RGA-8, a homolog of SH3BP1/Rich1/ARHGAP17/Nadrin, with BAR and RhoGAP motifs, suggests it regulates CDC-42, so that actin and myosin/NMY-2 promote ventral enclosure during embryonic morphogenesis. Genetic and molecular data suggest RGA-8 regulates CDC-42, and phenocopies the CDC-42 pathway regulators WASP-1/WSP-1 and the F-BAR proteins TOCA-1 and TOCA-2. Live imaging shows RGA-8 and WSP-1 enrich myosin and regulate F-actin in migrating epidermal cells during ventral enclosure. Loss of RGA-8 alters membrane recruitment of active CDC-42. We propose TOCA proteins and RGA-8 use BAR domains to localize and regenerate CDC-42 activity, thus regulating F-actin levels, through the branched actin regulator WSP-1, and myosin enrichment. RhoGAP RGA-8 thus polarizes epithelia, to promote cell migrations and cell shape changes of embryonic morphogenesis.

Published

2020

7. BMAL1 associates with chromosome ends to control rhythms in TERRA and telomeric heterochromatin.

Author

Jinhee Park, Qiaoqiao Zhu, Emily Mirek, Li Na, Hamidah Raduwan, Tracy G Anthony, and William J Belden

Subjects

Medicine, Science

Abstract

The circadian clock and aging are intertwined. Disruption to the normal diurnal rhythm accelerates aging and corresponds with telomere shortening. Telomere attrition also correlates with increase cellular senescence and incidence of chronic disease. In this report, we examined diurnal association of White Collar 2 (WC-2) in Neurospora and BMAL1 in zebrafish and mice and found that these circadian transcription factors associate with telomere DNA in a rhythmic fashion. We also identified a circadian rhythm in Telomeric Repeat-containing RNA (TERRA), a lncRNA transcribed from the telomere. The diurnal rhythm in TERRA was lost in the liver of Bmal1-/- mice indicating it is a circadian regulated transcript. There was also a BMAL1-dependent rhythm in H3K9me3 at the telomere in zebrafish brain and mouse liver, and this rhythm was lost with increasing age. Taken together, these results provide evidence that BMAL1 plays a direct role in telomere homeostasis by regulating rhythms in TERRA and heterochromatin. Loss of these rhythms may contribute to telomere erosion during aging.

Published

2019