William De Martini scite author profile

Cells have multiple means to induce apoptosis in response to viral infection. Poxviruses must prevent activation of cellular apoptosis to ensure successful replication. These viruses devote a substantial portion of their genome to immune evasion. Many of these immune evasion products expressed during infection antagonize cellular apoptotic pathways. Poxvirus products target multiple points in both the extrinsic and intrinsic apoptotic pathways, thereby mitigating apoptosis during infection. Interestingly, recent evidence indicates that poxviruses also hijack cellular means of eliminating apoptotic bodies as a means to spread cell to cell through a process called apoptotic mimicry. Poxviruses are the causative agent of many human and veterinary diseases. Further, there is substantial interest in developing these viruses as vectors for a variety of uses including vaccine delivery and as oncolytic viruses to treat certain human cancers. Therefore, an understanding of the molecular mechanisms through which poxviruses regulate the cellular apoptotic pathways remains a top research priority. In this review, we consider anti-apoptotic strategies of poxviruses focusing on three relevant poxvirus genera: Orthopoxvirus, Molluscipoxvirus, and Leporipoxvirus. All three genera express multiple products to inhibit both extrinsic and intrinsic apoptotic pathways with many of these products required for virulence.

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The role of a Brugia malayi p38 MAP kinase ortholog (Bm-MPK1) in parasite anti-oxidative stress responses

Patel¹,

Chojnowski²,

Gaskill³

et al. 2011

Molecular and Biochemical Parasitology

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Kinases: Understanding Their Role in HIV Infection

Martini

Rahman

Ojegba

et al. 2019

WJA

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Antiviral drugs currently on the market primarily target proteins encoded by specific viruses. The drawback of these drugs is that they lack antiviral mechanisms that account for resistance or viral mutation. Thus, there is a pressing need for researchers to explore and investigate new therapeutic agents with other antiviral strategies. Viruses such as the human immunodeficiency virus (HIV) alter canonical signaling pathways to create a favorable biochemical environment for infectivity. We used Qiagen Ingenuity Pathway Analysis (IPA) software to review the function of several cellular kinases and the resulting perturbed signaling pathways during HIV infection such as NF-κB signaling. These host cellular kinases such as ADK, PKR, MAP3K11 are involved during HIV infection at various stages of the life cycle. Additionally IPA analysis indicated that these modified host cellular kinases are known to have interactions with each other especially AKT1, a serine/threonine kinase involved in multiple pathways. We present a list of cellular host kinases and other proteins that interact with these kinases. This approach to understanding the relationship between HIV infection and kinase activity may introduce new drug targets to arrest HIV infectivity.

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The Molluscum Contagiosum Virus Protein MC163 Inhibits TNF-α-induced NF-κB Activation

et al. 2019

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Aim: The molluscum contagiosum virus (MCV) expresses several immune evasion molecules that inhibit activation of NF-κB. Presumably, inhibition of inflammatory responses mediated by NF-κB allows MCV to cause persistent infections. Materials & methods: MC163-IKK-α interactions were detected by immunoprecipitations. Results: Here, we identify a novel MCV inhibitor of NF-κB. Ectopic expression of the MC163 protein resulted in a significant decrease in TNF-α-induced NF-κB activation. However, MC163 had no detectable effect on mitochondrial antiviral-signaling protein-induced activation of the IFN-β-promoter. MC163 dampened NF-κB activation induced via the overexpression of either IKK-α or IKK-β suggesting MC163 targets the IKK complex. Conclusion: Our data highlight a previously unknown function for the MC163 protein and may represent an additional strategy used by MCV to subvert host immune responses.

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