BACTERIAL PATHOGEN-ASSOCIATED MOLECULAR PATTERNS UPREGULATE HUMAN GLUCOCORTICOID RECEPTOR EXPRESSION IN PERIPHERAL BLOOD MONONUCLEAR CELLS.

It is well known that bacterial components (pathogen-associated molecular patterns [PAMPs]) induce a proinflammatory response through pattern recognition receptor signaling. What is not known, however, is how the inflammatory response is downregulated. We hypothesize that bacterial products initiate compensatory anti-inflammatory responses by inducing expression of the human glucocorticoid receptor (hGR).

A Novel Human Glucocorticoid Receptor Variant, G459V, is Hyperactive in Response to Steroids.

A potential cause of the variable response to injury and sepsis is the variability of a patient's human glucocorticoid receptor (hGR) profile. To identify hGR variants, blood samples were collected on admission and biweekly thereafter from hospitalized patients who sustained at least a 20% total body surface area burn injury. A hyperactive G1376T single-nucleotide polymorphism (SNP) isoform was identified.

Uncovering a multitude of human glucocorticoid receptor variants: an expansive survey of a single gene.

Background: Glucocorticoids are commonly used in the clinical setting for their potent anti-inflammatory effects; however, significant variations in response to treatment have been demonstrated. Although the underlying mechanisms have yet to be fully understood, this variable response may be a result of alterations in human glucocorticoid receptor (hGR) expression and function. In addition to hGRα, the biologically active isoform, a screening of current databases and publications revealed five alternative splice isoforms and hundreds of variants that have been reported to date.

Lipopolysaccharide Stress Induces Cryptic Exon Splice Variants of the Human Glucocorticoid Receptor.

Glucocorticoids are widely used in the treatment of numerous inflammatory conditions, including sepsis. Unfortunately, patient response to glucocorticoid therapy can be inconsistent. Variations in the human glucocorticoid receptor (hGR) may contribute to the differential patient response.

A novel human glucocorticoid receptor SNP results in increased transactivation potential.

Glucocorticoids are one of the most widely used therapeutics in the treatment of a variety of inflammatory disorders. However, it is known that there are variable patient responses to glucocorticoid treatment; there are responders and non-responders, or those that need higher dosages. Polymorphisms in the glucocorticoid receptor (GR) have been implicated in this variability.

A Tri-Nucleotide Pattern in a 3' UTR Segment Affects The Activity of a Human Glucocorticoid Receptor Isoform.

We previously identified a truncated human glucocorticoid receptor (hGR) isoform of 118 amino acids, hGR-S1(-349A), that despite lacking the major functional domains, was more hyperactive after glucocorticoid treatment than the full-length receptor. Furthermore, its 3' untranslated region (UTR) was required. To dissect the underlying mechanisms for hyperactivity, a series of hGR isoforms with consecutive deletions in the 3' UTR were created to test their transactivation potential using reporter assays.

Hyperactive Human Glucocorticoid Receptor Isoforms and their Implications for the Stress Response.

Glucocorticoids are indispensable therapeutic agents in diseases of inflammation, but their effectiveness in treating advanced septic shock has been inconsistent. Our understanding of the mechanisms causing this variability to steroid therapy remains limited. Previous studies in our laboratory have implicated human glucocorticoid receptor (hGR) polymorphisms as one of the likely reasons for this variability.

Single nucleotide polymorphisms and type of steroid impact the functional response of the human glucocorticoid receptor.

Background: Clinical trials evaluating the use of steroids in septic shock have shown variable outcomes. Our previous studies have implicated human glucocorticoid receptor (hGR) polymorphisms as a possible cause of altered steroid response. To further evaluate this variability, we hypothesized that hGR polymorphisms along with type of steroid influence the functional response.

Enhanced steroid response of a human glucocorticoid receptor splice variant.

Glucocorticoids remain a recommended therapy in advanced septic shock despite the often unpredictable response, and our understanding of the mechanisms regulating the steroid and stress response remains limited. Since the initial sequencing of the human glucocorticoid receptor α and β gene (hGRα and hGRβ), only three additional splice variants have been identified--all of which have been postulated to contribute to steroid resistance. During a survey of 97 healthy humans' blood, we identified two novel hGR splice isoforms (hGR-S1 and hGR-S1(-349A) retaining intron H between exons 8 and 9.

Novel hyperactive glucocorticoid receptor isoform identified within a human population.

Glucocorticoids serve as important therapeutic agents in diseases of inflammation, but clinical use, especially in advanced septic shock, remains controversial because of the unpredictable response. Prior studies correlate human glucocorticoid receptor (hGR) isoforms with a decreased response to steroid therapy. Further analysis of additional hGR isoforms may improve the understanding of the steroid response.

Involvement of CD14 and toll-like receptor 4 in the acute phase response of serum amyloid A proteins and serum amyloid P component in the liver after burn injury.

Acute phase proteins such as serum amyloid A proteins (SAAs) and serum amyloid P component (SAP) are induced in the liver after various insults (e.g., infection, injury).