Laura G. Howe scite author profile

Laura G. Howe

3Publications

20Citation Statements Received

117Citation Statements Given

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137

Affiliations

Hammersmith Hospital, Chelsea and Westminster Hospital, Imperial College London

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The response of the innate immune and cardiovascular systems to LPS in pregnant and nonpregnant mice†

Zöllner

Howe

Edey

et al. 2017

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Sepsis is the leading cause of direct maternal mortality, but there are no data directly comparing the response to sepsis in pregnant and nonpregnant (NP) individuals. This study uses a mouse model of sepsis to test the hypothesis that the cardiovascular response to sepsis is more marked during pregnancy. Female CD1 mice had radiotelemetry probes implanted and were time mated. NP and day 16 pregnant CD-1 mice received intraperitoneal lipopolysaccharide (LPS; 10 μg, serotype 0111: B4). In a separate study, tissue and serum (for RNA, protein and flow cytometry studies), aorta and uterine vessels (for wire myography) were collected after LPS or vehicle control administration. Administration of LPS resulted in a greater fall in blood pressure in pregnant mice compared to NP mice. This occurred with similar changes in the circulating levels of cytokines, vasoactive factors, and circulating leukocytes, but with a greater monocyte and lesser neutrophil margination in the lungs of pregnant mice. Baseline markers of cardiac dysfunction and apoptosis as well as cytokine expression were higher in pregnant mice, but the response to LPS was similar in both groups as was the ex vivo assessment of vascular function. In pregnant mice, nonfatal sepsis is associated with a more marked hypotensive response but not a greater immune response. We conclude that endotoxemia induces a more marked hypotensive response in pregnant compared to NP mice. These changes were not associated with a more marked systemic inflammatory response in pregnant mice, although monocyte lung margination was greater. The more marked hypotensive response to LPS may explain the greater vulnerability to some infections exhibited by pregnant women. Pregnancy enhances LPS-induced hypotension, 2017, Vol. 97, No. 2 Summary SentenceIn pregnant mice, nonfatal sepsis is associated with a more marked hypotensive response but not a greater immune response.

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LPS-Induced Hypotension in Pregnancy: The Effect of Progesterone Supplementation

Zöllner

Howe

Edey

et al. 2020

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Our previous work has shown that pregnancy exacerbates the hypotensive response to both infection and LPS. The high levels of progesterone (P4) associated with pregnancy have been suggested to be responsible for the pregnancy-induced changes in the cardiovascular response to infection. Here, we test the hypothesis that P4 supplementation exacerbates the hypotensive response of the maternal cardiovascular to LPS. Female CD1 mice had radiotelemetry probes implanted to measure haemodynamic function non-invasively and were time-mated. From day 14 of pregnancy, mice received either 10mg of P4 or vehicle alone per day and on day 16, intraperitoneal LPS (10µg of serotype 0111:B4) was injected. In two identically treated cohorts of mice, tissue and serum (for RNA, protein studies) were collected at 6 and 12 hours. Administration of LPS resulted in a fall in blood pressure in vehicle treated, but not P4 supplemented mice. This occurred with similar changes in the circulating levels of cytokines, vasoactive factors and in both circulating and tissue inflammatory cell numbers, but with reduced left ventricular expression of cytokines in P4-supplemented mice. However, left ventricular expression of markers of cardiac dysfunction and apoptosis were similar. This study demonstrates that P4 supplementation prevented LPS-induced hypotension in pregnant mice in association with reduced myocardial inflammatory cytokine gene expression. These observations suggest that rather than being detrimental, P4 supplementation has a protective effect on the maternal cardiovascular response to sepsis.

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CCR2 mediates the adverse effects of LPS in the pregnant mouse

Hua

Edey

O’Dea

et al. 2019

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In our earlier work, we found that intrauterine (i.u.) and intraperitoneal (i.p.) injection of LPS (10-μg serotype 0111:B4) induced preterm labor (PTL) with high pup mortality, marked systemic inflammatory response and hypotension. Here, we used both i.u. and i.p. LPS models in pregnant wild-type (wt) and CCR2 knockout (CCR2−/−) mice on E16 to investigate the role played by the CCL2/CCR2 system in the response to LPS. Basally, lower numbers of monocytes and macrophages and higher numbers of neutrophils were found in the myometrium, placenta, and blood of CCR2−/− vs. wt mice. After i.u. LPS, parturition occurred at 14 h in both groups of mice. At 7 h post-injection, 70% of wt pups were dead vs. 10% of CCR2−/− pups, but at delivery 100% of wt and 90% of CCR2−/− pups were dead. Myometrial and placental monocytes and macrophages were generally lower in CCR2−/− mice, but this was less consistent in the circulation, lung, and liver. At 7 h post-LPS, myometrial ERK activation was greater and JNK and p65 lower and the mRNA levels of chemokines were higher and of inflammatory cytokines lower in CCR2−/− vs. wt mice. Pup brain and placental inflammation were similar. Using the IP LPS model, we found that all measures of arterial pressure increased in CCR2−/− but declined in wt mice. These data suggest that the CCL2/CCR2 system plays a critical role in the cardiovascular response to LPS and contributes to pup death but does not influence the onset of inflammation-induced PTL.

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Laura G. Howe

The response of the innate immune and cardiovascular systems to LPS in pregnant and nonpregnant mice†

LPS-Induced Hypotension in Pregnancy: The Effect of Progesterone Supplementation

CCR2 mediates the adverse effects of LPS in the pregnant mouse

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