Alice Witsell scite author profile

The impact of aging on the cytokine response of human skeletal muscle to exercise-induced injury remains poorly understood. We enrolled physically active, young (23-35 years old, n=15) and old (66-78 years old, n=15) men to perform 45 min of downhill running (16% descent) at 75% VO2max. Biopsies of vastus lateralis were obtained 24 h before and 72 h after acute eccentric exercise. Transcripts for inflammatory (TNF-alpha, IL-1beta) and anti-inflammatory cytokines (IL-6, TGF-beta1) were quantified by real-time PCR. Before exercise, cytokine transcripts did not differ with age. At old age, exercise induced a blunted accumulation of transcripts encoding the pan-leukocyte surface marker CD18 (young: 10.1-fold increase, P<0.005; old: 4.7-fold increase, P=0.02; young vs. old: P<0.05). In both age groups, CD18 transcript accumulation strongly correlated with TNF-alpha (young, r=0.87, P<0.001; old, r=0.72, P=0.002) and TGF-beta1 transcript accumulation (young, r=0.80, P<0.001; old, r=0.64, P=0.008). At old age, there was no correlation between IL-1beta and CD18 transcript accumulation. Furthermore, exercise induced IL-6 transcript accumulation in young (3.6-fold, P=0.057) but not in old men. Our results suggest that aging impairs the adaptive response of human skeletal muscle to eccentric exercise by differential modulation of a discrete set of inflammatory and anti-inflammatory cytokine genes.

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Mechanisms generating functionally heterogeneous macrophages: chaos revisited

Rutherford

1993

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Macrophage populations exhibit a wide range of antigenic and functional phenotypes, including cytokine production, response to immunomodulatory stimuli, and clearance of pathogens. The expanding clinical exploitation of recombinant growth factors and cytokines with the potential to regulate the production and function of peripheral macrophage populations necessitates an increased understanding of the mechanisms by which functionally distinct macrophage populations arise as well as the ramifications of macrophage heterogeneity. The present review summarizes recent data which supports multiple mechanisms by which heterogeneous macrophage populations arise: 1) differential signals experienced within diverse tissue microenvironments; 2) developmentally-staged expression of specific functions; 3) clonal variation of myeloid progenitor cells; and 4) alternate hematopoietic stimulation. These data show that the above processes are not mutually exclusive and that each likely contributes to the observed heterogeneity of peripheral macrophage populations.

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Drosophila DNA polymerase theta utilizes both helicase-like and polymerase domains during microhomology-mediated end joining and interstrand crosslink repair

et al. 2017

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Double strand breaks (DSBs) and interstrand crosslinks (ICLs) are toxic DNA lesions that can be repaired through multiple pathways, some of which involve shared proteins. One of these proteins, DNA Polymerase θ (Pol θ), coordinates a mutagenic DSB repair pathway named microhomology-mediated end joining (MMEJ) and is also a critical component for bypass or repair of ICLs in several organisms. Pol θ contains both polymerase and helicase-like domains that are tethered by an unstructured central region. While the role of the polymerase domain in promoting MMEJ has been studied extensively both in vitro and in vivo, a function for the helicase-like domain, which possesses DNA-dependent ATPase activity, remains unclear. Here, we utilize genetic and biochemical analyses to examine the roles of the helicase-like and polymerase domains of Drosophila Pol θ. We demonstrate an absolute requirement for both polymerase and ATPase activities during ICL repair in vivo. However, similar to mammalian systems, polymerase activity, but not ATPase activity, is required for ionizing radiation-induced DSB repair. Using a site-specific break repair assay, we show that overall end-joining efficiency is not affected in ATPase-dead mutants, but there is a significant decrease in templated insertion events. In vitro, Pol θ can efficiently bypass a model unhooked nitrogen mustard crosslink and promote DNA synthesis following microhomology annealing, although ATPase activity is not required for these functions. Together, our data illustrate the functional importance of the helicase-like domain of Pol θ and suggest that its tethering to the polymerase domain is important for its multiple functions in DNA repair and damage tolerance.

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Macrophage heterogeneity occurs through a developmental mechanism.

Witsell

Schook

1991

Proc. Natl. Acad. Sci. U.S.A.

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The versatility and importance of macrophages in host defense and homeostasis have long been recognized. Anatomically, macrophages isolated from various tissues manifest extreme differences in shape, in metabolic and functional activities, and in the expression of macrophagespecific markers. To determine the mechanisms responsible for generating macrophage heterogeneity, we have employed the reverse transcription-polymerase chain reaction to molecularly phenotype colonies of bone marrow-derived macrophages during differentiation in vitro. By utilizing this method, results have revealed a hierarchal expression of macrophageassociated genes. Tumor necrosis factor a was expressed in all colonies analyzed suggesting an important role for this molecule during macrophage differentiation. Predominant colony phenotypes observed were unique for (i) the period of differentiation and (ii) the growth factor with which they were derived (either colony-stimulating factor 1 or granulocytemacrophage colony-stimulating factor). Exogenous stimulation of the cultures with either bacterial lipopolysaccharide or interferon-y led to predictable phenotypic transitions. These results suggest that macrophage heterogeneity is generated through differentiation-related mechanisms and that generated macrophage phenotypes are then maintained by systemic environmental constraints.

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Alice Witsell

Senescence of human skeletal muscle impairs the local inflammatory cytokine response to acute eccentric exercise

Mechanisms generating functionally heterogeneous macrophages: chaos revisited

Drosophila DNA polymerase theta utilizes both helicase-like and polymerase domains during microhomology-mediated end joining and interstrand crosslink repair

Macrophage heterogeneity occurs through a developmental mechanism.

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