Xavier Gonzales scite author profile

Cold atmospheric plasma (CAP), an ambient temperature ionized gas, is gaining extensive interest as a promising addition to anti-tumor therapy primarily due to the ability to generate and control delivery of electrons, ions, excited molecules, UV photons, and reactive species such as reactive oxygen species (ROS) and reactive nitrogen species (RNS) to a specific site. The heterogeneous composition of CAP offers the opportunity to mediate several signaling pathways that regulate tumor cells. Consequently, the array of CAP generated products has limited the identification of the mechanisms of action on tumor cells. The aim of this work is to assess the cell death response of human myeloid leukemia cells by remote exposure to CAP generated RNS by utilizing a novel resistive barrier discharge system that primarily produces RNS. The effect of variable treatments of CAP generated RNS was tested in THP-1 cell (human monocytic leukemia cell line), a model for hematological malignancy. The number of viable cells was evaluated with erythrosine-B staining, while apoptosis and necrosis was assessed by endonuclease cleavage observed by agarose gel electrophoresis and detection of cells with the exclusionary dye propidium iodide and fluorescently labeled annexin-V by flow cytometry and fluorescent microscopy. Our observations indicate that treatment dosage levels of 45 s of exposure to CAP emitted RNS-induced apoptotic cell death and for higher dosage conditions of ≥50 s of exposure to CAP induced necrosis. Overall the results suggest that CAP emitted RNS play a significant role in the anti-tumor potential of CAP.

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Stress-induced differences in primary and secondary resistance against bacterial sepsis corresponds with diverse corticotropin releasing hormone receptor expression by pulmonary CD11c+ MHC II+ and CD11c− MHC II+ APCs

Gonzales

Deshmukh

Pulse

et al. 2008

Brain, Behavior, and Immunity

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Stress responses have been associated with altered immunity and depending upon the type of stressor, can have diverse effects on disease outcomes. As the first line of defense against potential pathogens, alterations in cellular immune responses along the respiratory tract can have a significant impact on the manifestation of local and systemic disease. Utilizing a murine model of respiratory pneumonia, the current study investigated the effects of restraint stress on the induction of primary and secondary immunity along the respiratory tract, influencing host susceptibility. Female CD-1 mice were subjected to three hours of restraint stress over a period of four days followed by primary and secondary Streptococcus pneumoniae infection via intranasal route. Stress exposure led to increased retention of bacterial carriage in the lungs, enhanced polymorphonuclear cells and a preferential decrease in pulmonary CD11c(+) MHC II(+) cells resulting in delayed lethality during primary infection but significant impairment of acquired immune protection after secondary infection. We also provide evidence to support a role for lung-associated corticotropin releasing hormone regulation through peripheral CRH and diverse CRH receptor expression by MHC II(+) antigen presenting cells (APCs). We conclude that repeated restraint stress has distinct influences on immune cell populations that appear to be important in the generation of innate and adaptive immune responses along the respiratory tract with the potential to influence local and systemic protection against disease pathogenesis.

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Catecholamine norepinephrine diminishes lung epithelial cell adhesion of Streptococcus pneumoniae by binding iron

Gonzales

Castillo-Rojas

Castillo-Rodal

et al. 2013

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Systemic release of norepinephrine (NE) is a component of the acute host response to infection, and studies in the field of microbial endocrinology indicate generally that NE increases the bacterial growth rate and promotes invasive disease. However, NE attenuates experimental invasive pneumococcal disease. We determined that NE promoted pneumococcal growth but paradoxically decreased pneumococcal adhesion to host cells. This effect was independent of the classical adhesin CbpA. Microarray analysis indicated that the effect of NE involved two twocomponent regulatory systems that both regulate expression of the Piu iron uptake ABC transport operon. We propose that NE, a known siderophore, enhances iron availability to the bacteria, resulting in greater bacterial replication and decreased expression of Piu operon products. Downregulation of the operon includes decreased expression of the Piu-associated adhesin PiuD. Our results suggested that the iron-dependent inhibitory effect of NE on pneumococcal adherence is a mechanism underlying the amelioration of pneumococcal disease by NE.

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Neuropsychological assessment of mild cognitive impairment in Latinx adults: A scoping review.

Briceño¹,

Mehdipanah²,

Gonzales³

et al. 2020

Neuropsychology

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Have studies described methods for accounting for demographic, cultural, and linguistic diversity when using neuropsychological assessment for mild cognitive impairment in Latinx populations? Findings: Studies often do not report their methods for accounting for demographic, linguistic, and cultural diversity in assessment of MCI in Latinx individuals. Importance: Increased detail is needed in reporting of neuropsychological assessment methodology for Latinx individuals, as this will lead to better identification of knowledge gaps in our understanding of MCI in these populations. Next Steps: Future work is needed to further develop culturally appropriate neuropsychological assessment methods in Latinx populations. Empirical Research 511 Implicit Contextual Learning in Spinocerebellar AtaxiaCigdem Ulasoglu-Yildiz and Hakan Gurvit This study showed that the cerebellum also contributes to implicit contextual learning. This type of learning facilitates search and decision-making in spatial contexts, which remain largely stable over time. It seems that the large-scale neural network for implicit contextual learning also includes the cerebellum. Specific cerebellar components of this network awaits to be elucidated with meticulous neuroimaging methods.

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A murine model of stress controllability attenuates Th2-dominant airway inflammatory responses

Deshmukh¹,

Kim²,

Gonzales³

et al. 2010

Journal of Neuroimmunology

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Epidemiological and experimental studies suggest a positive correlation between chronic respiratory inflammatory disease and the ability to cope with adverse stress. Interactions between neuroendocrine and immune systems are believed to provide insight toward the biological mechanisms of action. The utility of an experimental murine model was employed to investigate the immunological consequences of stress-controllability and ovalbumin-induced airway inflammation. Pre-conditioned uncontrollable stress exacerbated OVA-induced lung histopathological changes that were typical of Th2-predominant inflammatory response along respiratory tissues. Importantly, mice given the ability to exert control over aversive stress attenuated inflammatory responses and reduced lung pathology. This model represents a means of investigating the neuro-immune axis in defining mechanisms of stress and respiratory disease.

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Xavier Gonzales

Induction of apoptosis in human myeloid leukemia cells by remote exposure of resistive barrier cold plasma

Stress-induced differences in primary and secondary resistance against bacterial sepsis corresponds with diverse corticotropin releasing hormone receptor expression by pulmonary CD11c+ MHC II+ and CD11c− MHC II+ APCs

Catecholamine norepinephrine diminishes lung epithelial cell adhesion of Streptococcus pneumoniae by binding iron

Neuropsychological assessment of mild cognitive impairment in Latinx adults: A scoping review.

A murine model of stress controllability attenuates Th2-dominant airway inflammatory responses

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