Publications by authors named "Kelly Goff"

The effects of immunodeficiency associated with chronic HIV infection on COVID-19 disease and viral persistence have not been directly addressed in a controlled setting. In this pilot study, we exposed two pigtail macaques (PTMs) chronically infected with SIVmac239, exhibiting from very low to no CD4 T cells across all compartments, to SARS-CoV-2. We monitored the disease progression, viral replication, and evolution, and compared these outcomes with SIV-naïve PTMs infected with SARS-CoV-2.

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  • HIV and malaria often occur together in the same regions, leading to co-infection that worsens the symptoms of both diseases, but the mechanisms behind this increase in severity are not well understood.
  • A pilot study in rhesus macaques treated with antiretroviral therapy (ART) aimed to explore the effects of co-infection, revealing persistent viral loads and decreased CD4+ T-cells despite treatment, along with signs of anemia and parasitemia.
  • The study also found that co-infection increased inflammatory markers and altered neutrophil behavior, suggesting that inflammation and gastrointestinal dysfunction could play key roles in the aggravated disease pathology seen in HIV and malaria co-infection.
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Background: A vaccine against Trypanosoma cruzi, the agent of Chagas disease, would be an excellent additional tool for disease control. A recombinant vaccine based on Tc24 and TSA1 parasite antigens was found to be safe and immunogenic in naïve macaques.

Methods: We used RNA-sequencing and performed a transcriptomic analysis of PBMC responses to vaccination of naïve macaques after each vaccine dose, to shed light on the immunogenicity of this vaccine and guide the optimization of doses and formulation.

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  • * MA30-infected C57BL/6 mice showed severe lung inflammation and edema, similar to what severe COVID-19 patients experience, while K18-ACE2 mice had different inflammation patterns.
  • * The research highlights the importance of T and B cells for an effective immune response against SARS-CoV-2, as their depletion led to worse infection outcomes, whereas NK cells had a minimal effect during the acute phase.
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  • * A pilot study involved two pigtail macaques infected with SIV (a simian version of HIV), which were exposed to SARS-CoV-2 and monitored to observe clinical disease and viral behavior over six weeks, compared to non-SIV-infected macaques.
  • * Despite lacking robust immune responses, the SIV-infected macaques showed similar patterns of viral replication and clearance as non-infected macaques, suggesting that their immunodeficiency didn't affect the progression or evolution of SARS-CoV-2. *
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A vaccine against Trypanosoma cruzi, the agent of Chagas disease, would be an excellent additional tool for disease control. A recombinant vaccine based on Tc24 and TSA1 parasite antigens was found to be safe and immunogenic in naïve macaques. Here we performed a transcriptomic analysis of PBMC responses to vaccination, to shed light on the immunogenicity of this vaccine and guide the optimization of doses and formulation.

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The ability of each new SARS-CoV-2 variant to evade host humoral immunity is the focus of intense research. Each variant may also harbor unique replication capabilities relevant for disease and transmission. Here, we demonstrate a new approach to assessing viral replication kinetics using real-time cell analysis (RTCA).

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Chronic Chagasic cardiomyopathy develops years after infection in 20-40% of patients, but disease progression is poorly understood. Here, we assessed parasite dynamics and pathogenesis over a 2.5-year period in naturally infected rhesus macaques.

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HIV vaccine mediated efficacy, using an expanded live attenuated recombinant varicella virus-vectored SIV rSVV-SIVgag/env vaccine prime with adjuvanted SIV-Env and SIV-Gag protein boosts, was evaluated in a female rhesus macaques (RM) model against repeated intravaginal SIV challenges. Vaccination induced anti-SIV IgG responses and neutralizing antibodies were found in all vaccinated RMs. Three of the eight vaccinated RM remained uninfected (vaccinated and protected, VP) after 13 repeated challenges with the pathogenic SIVmac251-CX-1.

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  • Serial passage of the SIVmac239 virus helps scientists learn about the genetic changes that enable it to jump from monkeys to humans.
  • Research using humanized mice demonstrates that SIVmac239 continues to evolve with adaptive mutations through four cycles of passage.
  • This study observes a consistent decline in CD4 T cells and an increase in viral loads as SIVmac239 is passed serially, indicating the virus's adaptation process.
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Critical genetic adaptations needed for SIV chimpanzee to evolve into HIV-1 are not well understood. Using humanized mice, we mimicked the evolution of SIVcpzLB715 into HIV-1 Group M over the course of four generations. Higher initial viral load, increased CD4 T-cell decline, and nonsynonymous substitutions arose suggesting viral evolution.

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Despite the remarkable efficacy of COVID-19 vaccines, waning immunity and the emergence of SARS-CoV-2 variants such as Omicron represents a global health challenge. Here, we present data from a study in nonhuman primates demonstrating durable protection against the Omicron BA.1 variant induced by a subunit SARS-CoV-2 vaccine comprising the receptor binding domain of the ancestral strain (RBD-Wu) on the I53-50 nanoparticle adjuvanted with AS03, which was recently authorized for use in individuals 18 years or older.

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  • - The novel coronavirus SARS-CoV-2, which began spreading in late 2019, has caused a global pandemic and continues to evolve with various strains, complicating research on severe disease and treatment development.
  • - A study tested how different methods of infection influence COVID-19 disease characteristics in two monkey species: rhesus macaques and African green monkeys, revealing that both species showed similar viral loads regardless of the infection route.
  • - Findings indicated that infection via mucosal routes led to quicker clinical symptoms compared to aerosol exposure, with both species exhibiting consistent lung damage, thus enhancing understanding of SARS-CoV-2's impact and potential treatments for lung-related complications.
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  • Recent SARS-CoV-2 variants are more transmissible and can evade immune responses, making tracking their evolution essential.
  • A study sequenced viral RNA from rectal swabs of African green monkeys infected with SARS-CoV-2 to understand its evolution in nonhuman primate models.
  • Two key findings emerged: mutations in the furin cleavage site were absent in the monkeys, indicating its importance for infection, and three specific amino acid changes were consistently found in all samples, suggesting a possible host-adapted variant for future research.
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The novel coronavirus SARS-CoV-2, the causative agent of COVID-19 disease, has killed over five million people worldwide as of December 2021 with infections rising again due to the emergence of highly transmissible variants. Animal models that faithfully recapitulate human disease are critical for assessing SARS-CoV-2 viral and immune dynamics, for understanding mechanisms of disease, and for testing vaccines and therapeutics. Pigtail macaques (PTM, Macaca nemestrina) demonstrate a rapid and severe disease course when infected with simian immunodeficiency virus (SIV), including the development of severe cardiovascular symptoms that are pertinent to COVID-19 manifestations in humans.

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HIV-1 evolved from SIV during cross-species transmission events, though viral genetic changes are not well understood. Here, we studied the evolution of SIVcpzLB715 into HIV-1 Group M using humanized mice. High viral loads, rapid CD4 T-cell decline, and non-synonymous substitutions were identified throughout the viral genome suggesting viral adaptation.

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Simian immunodeficiency virus native to sooty mangabeys (SIVsm) is believed to have given rise to HIV-2 through cross-species transmission and evolution in the human. SIVmac239 and SIV, pathogenic to macaques, and SIVhu, isolated from an accidental human infection, also have origins in SIVsm. With their common ancestral lineage as that of HIV-2 from the progenitor SIVsm, but with different passage history in different hosts, they provide a unique opportunity to evaluate cross-species transmission to a new host and their adaptation/evolution both in terms of potential genetic and phenotypic changes.

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The genetic evolution of HIV-1 from its progenitor virus SIV following cross-species transmission is not well understood. Here we simulated the SIVcpz initial transmission to humans using humanized mice and followed the viral evolution during serial passages lasting more than a year. All three SIVcpz progenitor viruses used, namely LB715 and MB897 (group M) as well as EK505 (group N) readily infected hu-mice resulting in chronic viremia.

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Through the accumulation of adaptive mutations, HIV-2 originated from SIVsm. To identify these evolutionary changes, a humanized mouse model recapitulated the process that likely enabled this cross-species transmission event. Various adaptive mutations arose, as well as increased virulence and CD4 T-cell decline as the virus was passaged in humanized mice.

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Background: The World Health Organization (WHO) attributes the entirety of malaria infection and transmission in the Democratic Republic of the Congo (DRC) to Plasmodium falciparum, one of the several species of malaria known to infect humans. Recent studies have put forth some evidence that transmission of Plasmodium vivax may also be occurring in the DRC. As interventions and treatments differ between malaria species, it is crucial to maintain the most accurate understanding of malaria species diversity in each region.

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Chagas disease, caused by the protozoan parasite Trypanosoma cruzi is one of the most important neglected parasitic diseases in the Americas. Vaccines represent an attractive complementary strategy for the control of T. cruzi infection and pre-clinical studies in mice demonstrated that trypomastigote surface antigen (TSA-1) and the flagellar calcium-binding (Tc24) parasite antigens are promising candidates for vaccine development.

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In the present study, we report the effects of cooling ejaculated and epididymal rhesus monkey (Macacamulatta) sperm with and without the presence of a cryoprotective agent, glycerol. Water transport data during freezing of ejaculated and epididymal sperm cell suspensions were obtained at a cooling rate of 20 degrees C/min in the absence of any cryoprotective agents and in the presence of 0.7 M of glycerol, as well.

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