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1.
Methods Mol Biol ; 2768: 135-151, 2024.
Artículo en Inglés | MEDLINE | ID: mdl-38502392

RESUMEN

The receptor binding domain (RBD) of SARS-CoV-2 (SCoV2) has been used recently to identify the RBD sequences of feline coronavirus serotypes 1 (FCoV1) and 2 (FCoV2). Cats naturally infected with FCoV1 have been shown to possess serum reactivities with FCoV1 and SCoV2 RBDs but not with FCoV2 RBD. In the current study, COVID-19-vaccinated humans and FCoV1-infected laboratory cats were evaluated for interferon-gamma (IFNγ) and interleukin-2 (IL-2 ELISpot responses by their peripheral blood mononuclear cells (PBMC) to SCoV2, FCoV1, and FCoV2 RBDs. Remarkably, the PBMC from COVID-19-vaccinated subjects developed IFNγ responses to SCoV2, FCoV1, and FCoV2 RBDs. The most vaccinated subject (five vaccinations over 2 years) appeared to produce hyperreactive IFNγ responses to all three RBDs, including the PBS media control. This subject lost IFNγ responses to all RBDs at 9 months (9 mo) post-last vaccination. However, her IL-2 responses to FCoV1 and FCoV2 RBDs were low but detectable at 10 mo post-last vaccination. This observation suggests that initially robust IFNγ responses to SCoV2 RBD may be an outcome of robust inflammatory IFNγ responses to SCoV2 RBD. Hence, the T-cell responses of vaccine immunity should be monitored by vaccine immunogen-specific IL-2 production. The PBMC from chronically FCoV1-infected cats developed robust IFNγ responses to SCoV2 and FCoV2 RBDs but had the lowest IFNγ responses to FCoV1 RBD. The constant exposure to FCoV1 reinfection may cause the IFNγ responses to be downregulated to the infecting virus FCoV1 but not to the cross-reacting epitopes on the SCoV2 and FCoV2 RBDs.


Asunto(s)
COVID-19 , Coronavirus Felino , Vacunas , Humanos , Femenino , Gatos , Animales , Interferón gamma , Interleucina-2 , Coronavirus Felino/metabolismo , Leucocitos Mononucleares/metabolismo , ARN Viral , Linfocitos T , ARN Mensajero , Serogrupo , SARS-CoV-2/metabolismo , Anticuerpos Antivirales/metabolismo
2.
Viruses ; 15(4)2023 03 31.
Artículo en Inglés | MEDLINE | ID: mdl-37112894

RESUMEN

The current study was initiated when our specific-pathogen-free laboratory toms developed unexpectedly high levels of cross-reactive antibodies to human SARS-CoV-2 (SCoV2) receptor binding domain (RBD) upon mating with feline coronavirus (FCoV)-positive queens. Multi-sequence alignment analyses of SCoV2 Wuhan RBD and four strains each from FCoV serotypes 1 and 2 (FCoV1 and FCoV2) demonstrated an amino acid sequence identity of 11.5% and a similarity of 31.8% with FCoV1 RBD (12.2% identity and 36.5% similarity for FCoV2 RBD). The sera from toms and queens cross-reacted with SCoV2 RBD and reacted with FCoV1 RBD and FCoV2 spike-2, nucleocapsid, and membrane proteins, but not with FCoV2 RBD. Thus, the queens and toms were infected with FCoV1. Additionally, the plasma from six FCoV2-inoculated cats reacted with FCoV2 and SCoV2 RBDs, but not with FCoV1 RBD. Hence, the sera from both FCoV1-infected cats and FCoV2-infected cats developed cross-reactive antibodies to SCoV2 RBD. Furthermore, eight group-housed laboratory cats had a range of serum cross-reactivity to SCoV2 RBD even 15 months later. Such cross-reactivity was also observed in FCoV1-positive group-housed pet cats. The SCoV2 RBD at a high non-toxic dose and FCoV2 RBD at a 60-400-fold lower dose blocked the in vitro FCoV2 infection, demonstrating their close structural conformations essential as vaccine immunogens. Remarkably, such cross-reactivity was also detected by the peripheral blood mononuclear cells of FCoV1-infected cats. The broad cross-reactivity between human and feline RBDs provides essential insights into developing a pan-CoV vaccine.


Asunto(s)
COVID-19 , Coronavirus Felino , Gatos , Animales , Humanos , SARS-CoV-2 , COVID-19/prevención & control , Anticuerpos Antivirales , Leucocitos Mononucleares/metabolismo , Serogrupo , Anticuerpos Neutralizantes , Glicoproteína de la Espiga del Coronavirus
3.
Front Pharmacol ; 9: 311, 2018.
Artículo en Inglés | MEDLINE | ID: mdl-29946253

RESUMEN

Water constitutes and sustains life; however, its pollution afflicts its necessity, further worsening its scarcity. Coliform is one of the largest groups of bacteria evident in fecally polluted water, a major public health concern. Coliform thrive as commensals in the gut of warm-blooded animals, and are indefinitely passed through their feces into the environment. They are also called as model organisms as their presence is indicative of the prevalence of other potential pathogens, thus coliform are and unanimously employed as adept indicators of fecal pollution. As only a limited accessible source of fresh water is available on the planet, its contamination severely affects its usability. Coliform densities vary geographically and seasonally which leads to the lack of universally uniform regulatory guidelines regarding water potability often leads to ineffective detection of these model organisms and the misinterpretation of water quality status. Remedial measures such as disinfection, reducing the nutrient concentration or re-population doesn't hold context in huge lotic ecosystems such as freshwater rivers. There is also an escalating concern regarding the prevalence of multi-drug resistance in coliforms which renders antibiotic therapy incompetent. Antimicrobials are increasingly used in household, clinical, veterinary, animal husbandry and agricultural settings. Sub-optimal concentrations of these antimicrobials are unintentionally but regularly dispensed into the environment through seepages, sewages or runoffs from clinical or agricultural settings substantially adding to the ever-increasing pool of antibiotic resistance genes. When present below their minimum inhibitory concentration (MIC), these antimicrobials trigger the transfer of antibiotic-resistant genes that the coliform readily assimilate and further propagate to pathogens, the severity of which is evidenced by the high Multiple Antibiotic Resistance (MAR) index shown by the bacterial isolates procured from the environmental. This review attempts to assiduously anthologize the use of coliforms as water quality standards, their existent methods of detection and the issue of arising multi-drug resistance in them.

4.
Front Microbiol ; 8: 1239, 2017.
Artículo en Inglés | MEDLINE | ID: mdl-28725218

RESUMEN

Nature's silicon marvel, the diatoms have lately astounded the scientific community with its intricate designs and lasting durability. Diatoms are a major group of phytoplanktons involved in the biogeochemical cycling of silica and are virtually inherent in every environment ranging from water to ice to soil. The usage of diatoms has proved prudently cost effective and its handling neither requires costly materials nor sophisticated instruments. Diatoms can easily be acquired from the environment, their culture requires ambient condition and does not involve any costly media or expensive instruments, besides, they can be transported in small quantities and proliferated to a desirable confluence from that scratch, thus are excellent cost effective industrial raw material. Naturally occurring diatom frustules are a source of nanomaterials. Their silica bio-shells have raised curiosity among nanotechnologists who hope that diatoms will facilitate tailoring minuscule structures which are beyond the capabilities of material scientists. Additionally, there is a colossal diversity in the dimensions of diatoms as the frustule shape differs from species to species; this provides a scope for the choice of a particular species of diatom to be tailored to an exacting requisite, thus paving the way to create desired three dimensional nanocomposites. The present article explores the use of diatoms in various arenas of science, may it be in nanotechnology, biotechnology, environmental science, biophysics or biochemistry and summarizes facets of diatom biology under one umbrella. Special emphasis has been given to biosilicification, biomineralization and use of diatoms as nanomaterials', drug delivery vehicles, optical and immune-biosensors, filters, immunodiagnostics, aquaculture feeds, lab-on-a-chip, metabolites, and biofuels.

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