Kelly Higa scite author profile

Aging and chronic inflammation are independent risk factors for the development of atherothrombosis and cardiovascular disease. We hypothesized that aging-associated inflammation promotes the development of platelet hyperreactivity and increases thrombotic risk during aging. Functional platelet studies in aged-frail adults and old mice demonstrated that their platelets are hyperreactive and form larger thrombi. We identified tumor necrosis factor α (TNF-α) as the key aging-associated proinflammatory cytokine responsible for platelet hyperreactivity. We further showed that platelet hyperreactivity is neutralized by abrogating signaling through TNF-α receptors in vivo in a mouse model of aging. Analysis of the bone marrow compartments showed significant platelet-biased hematopoiesis in old mice reflected by increased megakaryocyte-committed progenitor cells, megakaryocyte ploidy status, and thrombocytosis. Single-cell RNA-sequencing analysis of native mouse megakaryocytes showed significant reprogramming of inflammatory, metabolic, and mitochondrial gene pathways in old mice that appeared to play a significant role in determining platelet hyperreactivity. Platelets from old mice (where TNF-α was endogenously increased) and from young mice exposed to exogenous TNF-α exhibited significant mitochondrial changes characterized by elevated mitochondrial mass and increased oxygen consumption during activation. These mitochondrial changes were mitigated upon TNF-α blockade. Similar increases in platelet mitochondrial mass were seen in platelets from patients with myeloproliferative neoplasms, where TNF-α levels are also increased. Furthermore, metabolomics studies of platelets from young and old mice demonstrated age-dependent metabolic profiles that may differentially poise platelets for activation. Altogether, we present previously unrecognized evidence that TNF-α critically regulates megakaryocytes resident in the bone marrow niche and aging-associated platelet hyperreactivity and thrombosis.

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Ectopic expression of hetP can partially bypass the need for hetR in heterocyst differentiation by Anabaena sp. strain PCC 7120

Higa

Callahan²

2010

Molecular Microbiology

112

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SummaryDifferentiation of nitrogen-fixing cells, called heterocysts, by the cyanobacterium Anabaena sp. strain PCC 7120 requires HetR, which is considered the master regulator of heterocyst differentiation. In this study, ectopic expression of hetP from an inducible promoter was shown to partially bypass the need for hetR in heterocyst differentiation. A hetR-deletion strain with hetP expressed ectopically produced cells morphologically similar to heterocysts that produced exopolysaccharide and glycolipids specific to heterocysts, and nitrogenase activity was present under anaerobic conditions, as indicated by an acetylene reduction assay. Five potential transcription start points or transcript processing sites located at positions -727, -545, -208, -177 and -12 bp relative to the putative translational start site were identified in the promoter region of hetP. Relative levels of transcription and their location in filaments resembled that previously reported for HetR protein in various genetic backgrounds, and an inverted repeat sequence in the promoter of hetP was necessary for binding of HetR. Two of the three identified homologues of hetP found in PCC 7120 partially complemented a hetP-null mutant. Taken together, these results suggest that HetP functions directly downstream of HetR in the regulatory network responsible for heterocyst differentiation.

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The RGSGR amino acid motif of the intercellular signalling protein, HetN, is required for patterning of heterocysts in Anabaena sp. strain PCC 7120

Higa

Rajagopalan

Risser

et al. 2012

Molecular Microbiology

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SummaryNitrogen-fixing heterocysts are arranged in a periodic pattern on filaments of the cyanobacterium Anabaena sp. strain PCC 7120 under conditions of limiting combined nitrogen. Patterning requires two inhibitors of heterocyst differentiation, PatS and HetN, which work at different stages of differentiation by laterally suppressing levels of an activator of differentiation, HetR, in cells adjacent to source cells. Here we show that the RGSGR sequence in the 287-amino-acid HetN protein, which is shared by PatS, is critical for patterning. Conservative substitutions in any of the five amino acids lowered the extent to which HetN inhibited differentiation when overproduced and altered the pattern of heterocysts in filaments with an otherwise wild-type genetic background. Conversely, substitution of amino acids comprising the putative catalytic triad of this predicted reductase had no effect on inhibition or patterning. Deletion of putative domains of HetN suggested that the RGSGR motif is the primary component of HetN required for both its inhibitory and patterning activity, and that localization to the cell envelope is not required for patterning of heterocysts. The intercellular signalling proteins PatS and HetN use the same amino acid motif to regulate different stages of heterocyst patterning.

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Kelly Higa

TNF-α–driven inflammation and mitochondrial dysfunction define the platelet hyperreactivity of aging

Ectopic expression of hetP can partially bypass the need for hetR in heterocyst differentiation by Anabaena sp. strain PCC 7120

The RGSGR amino acid motif of the intercellular signalling protein, HetN, is required for patterning of heterocysts in Anabaena sp. strain PCC 7120

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