Danielle K. Lewis

Effects of estrogen receptor agonists on regulation of the inflammatory response in astrocytes from young adult and middle-aged female rats

Estrogen has been shown to attenuate the inflammatory response following injury or lipopolysaccharide treatment in several organ systems. Estrogens actions are transduced through two estrogen receptor sub-types, estrogen receptor (ER) -alpha and estrogen receptor-beta, whose actions may be overlapping or independent of each other. The present study examined the effects of ERalpha- and ERbeta-specific ligands in regulating the inflammatory response in primary astrocyte cultures. Pre-treatment with 17beta-estradiol (ERalpha/ERbeta agonist), HPTE (ERalpha agonist/ERbeta antagonist) and DPN (ERbeta agonist) led to attenuation of IL-1beta, TNFalpha, and MMP-9 in astrocyte media derived from young adult (3-4 mos.) and reproductive senescent female (9-11 mos., acyclic) astrocyte cultures, while pretreatment with PPT (ERalpha agonist) attenuated IL-1beta (but not MMP-9) in both young and senescent-derived astrocyte cultures. Our previous work determined that 17beta-estradiol was unable to attenuate the LPS-induced increase in IL-1beta in olfactory bulb primary microglial cultures derived from either young adult or reproductive senescent females. In young adult-derived microglial cultures, the LPS-induced increase in IL-1beta was not attenuated by pre-treatment with 17beta-estradiol, PPT or HPTE. Interestingly, the ERbeta agonist, DPN significantly decreased IL-1beta following LPS treatment in young adult-derived microglia. Thus while both microglia and astrocytes synthesize and release inflammatory mediators, the present data shows that compounds which bind ERbeta are more effective in attenuating proinflammatory cytokines in both cell types and may therefore be a more effective agent for future therapeutic use.

cDNA cloning and transcriptional regulation of the vitellogenin receptor from the imported fire ant, Solenopsis invicta Buren (Hymenoptera: Formicidae)

We describe the cloning of the first hymenopteran vitellogenin receptor (VgR) cDNA from the imported fire ant, Solenopsis invicta, an invasive pest. Using reverse transcription polymerase chain reaction and rapid amplification of cDNA ends, fragments encompassing the entire coding region of a putative VgR were cloned and sequenced. The complete 5764 bp cDNA encodes a 1782 residue protein with a predicted molecular mass of 201.3 kDa (=SiVgR). Northern blot analysis demonstrated that the 7.4 kb SiVgR transcript was present only in ovaries of reproductive females (virgin alates and queens). The temporal profile of transcriptional expression showed that SiVgR mRNA increased with age in virgin alate females and that this was up‐regulated by methoprene, a juvenile hormone (JH) analogue. This suggests that the SiVgR gene is JH regulated.

Temporal expression of IL-1β protein and mRNA in the brain after systemic LPS injection is affected by age and estrogen

Estrogen has been shown to suppress neural inflammation in vivo in response to intracerebral LPS injections or by intraparenchymal injections of NMDA. Using the latter approach, we have shown that estrogen suppresses inflammatory cytokine expression in lesioned ovariectomized young adult females but not reproductive senescent animals. However, in cultured microglia derived from either young or senescent animals, estrogen fails to suppress LPS-induced cytokine expression. These data suggest that estrogens effects on the neural inflammatory response may result from its actions on blood-borne immune cells or its actions at the blood brain barrier or both. This hypothesis was directly tested here using a systemic injury model and comparing the neural inflammatory response in the olfactory bulb, which is protected by the blood brain barrier, and in the pituitary gland, which is incompletely protected by the blood brain barrier. Young and senescent Sprague-Dawley female rats were ovariectomized and replaced with either an estrogen or placebo pellet. Three weeks later, animals received a single i.p. injection of LPS (or vehicle) and were terminated 0.5, 2 or 3h later. Systemic injections of LPS increased IL-1beta expression in the liver in a time-dependent manner in young and senescent females. In young adults, LPS increased cytokine expression in both the bulb and the pituitary gland. However, estrogen treatment attenuated IL-1beta expression in the olfactory bulb but not in the pituitary gland. In senescent animals, estrogen completely suppressed IL-1beta expression in the bulb and the pituitary gland, while placebo-replaced animals responded normally. This age-related difference in cytokine induction by LPS was also seen in mRNA regulation, such that LPS induced IL-1beta mRNA in the olfactory bulb of young adults but not in the senescent female. Age and hormone effects on pituitary cytokines were also mirrored in plasma corticosterone (CORT) levels, such that estrogen treatment to senescent females attenuated LPS-induced CORT. These data suggest that the central inflammatory response to a systemic insult can be modulated by estrogen although the mechanism underlying the initiation of this response varies with reproductive age.

Age-related changes in brain support cells: Implications for stroke severity.

Stroke is one of the leading causes of adult disability and the fourth leading cause of mortality in the US. Stroke disproportionately occurs among the elderly, where the disease is more likely to be fatal or lead to long-term supportive care. Animal models, where the ischemic insult can be controlled more precisely, also confirm that aged animals sustain more severe strokes as compared to young animals. Furthermore, the neuroprotection usually seen in younger females when compared to young males is not observed in older females. The preclinical literature thus provides a valuable resource for understanding why the aging brain is more susceptible to severe infarction. In this review, we discuss the hypothesis that stroke severity in the aging brain may be associated with reduced functional capacity of critical support cells. Specifically, we focus on astrocytes, that are critical for detoxification of the brain microenvironment and endothelial cells, which play a crucial role in maintaining the blood brain barrier. In view of the sex difference in stroke severity, this review also discusses studies of middle-aged acyclic females as well as the effects of the estrogen on astrocytes and endothelial cells.

Age-related severity of focal ischemia in female rats is associated with impaired astrocyte function

In middle-aged female rats, focal ischemia leads to a larger cortical infarction as compared with younger females. To determine if stroke-induced cytotoxicity in middle-aged females was associated with impaired astrocyte function, astrocytes were harvested and cultured from the ischemic cortex of young and middle-aged female rats. Middle-aged astrocytes cleared significantly less glutamate from media as compared with young female astrocytes. Furthermore, astrocyte-conditioned media from middle-aged female astrocytes induced greater migration of peripheral blood monocyte cells (PBMCs) and expressed higher levels of the chemoattractant macrophage inflammatory protein-1 (MIP-1). Middle-aged astrocytes also induced greater migration of neural progenitor cells (NPCs), however, their ability to promote neuronal differentiation of neural progenitor cells was similar to young astrocytes. In males, where cortical infarct volume is similar in young and middle-aged animals, no age-related impairment was observed in astrocyte function. These studies show that the aging astrocyte may directly contribute to infarct severity by inefficient glutamate clearance and enhanced cytokine production and suggest a cellular target for improved stroke therapy among older females.

The neurotrophin receptor p75NTR mediates early anti-inflammatory effects of estrogen in the forebrain of young adult rats.

BackgroundEstrogen suppresses microglial activation and extravasation of circulating monocytes in young animals, supporting an anti-inflammatory role for this hormone. However, the mechanisms underlying estrogens anti-inflammatory effects, especially in vivo, are not well understood. The present study tests the hypothesis that anti-inflammatory effects of estrogen are mediated by the pan-neurotrophin receptor p75NTR. Previously, we reported that estrogen attenuated local increases of interleukin(IL)-1β in the NMDA-lesioned olfactory bulb, while further increasing NGF expression.ResultsThe present studies show that this lesion enhances expression of the neurotrophin receptor p75NTR at the lesion site, and p75NTR expression is further enhanced by estrogen treatment to lesioned animals. Specifically, estrogen stimulates p75NTR expression in cells of microvessels adjacent to the lesion site. To determine the role of this receptor in mediating estrogens anti-inflammatory effects, a p75NTR neutralizing antibody was administered at the same time the lesion was created (by stereotaxic injections of NMDA) and specific markers of the inflammatory cascade were measured. Olfactory bulb injections of NMDA+vehicle (preimmune serum) increased IL-1β and activated the signaling molecule c-jun terminal kinase (JNK)-2 at 6 h. At 24 h, the lesion significantly increased matrix metalloproteinase (MMP)-9 and prostaglandin (PG)E2, a COX-2 mediated metabolite of arachadonic acid. All of these markers were significantly attenuated by estrogen in a time-dependent manner. However, estrogens effects on all these markers were abolished in animals that received anti-p75NTR.ConclusionThese data support the hypothesis that estrogens anti-inflammatory effects may be, in part, mediated by this neurotrophin receptor. In view of the novel estrogen-dependent expression of p75NTR in cells associated with microvessels, these data also suggest that the blood brain barrier is a critical locus of estrogens neuro-immune effects.

Characterization of vitellogenin in the red imported fire ant, Solenopsis invicta (Hymenoptera: Apocrita: Formicidae).

Vitellin (VN) and vitellogenin (VG) profiles were analyzed in monogyne and polygyne colonies of the red imported fire ant, Solenopsis invicta. Non-denaturing and SDS-polyacrylamide gel electrophoresis (PAGE) analyses indicated that the native VN was likely 350 kDa and comprised of two subunits in the molecular size range of 170-185 kDa. SDS-PAGE of hemolymph showed that the relative mobilities and subunit patterns of VG and VN were similar. VG was present in the hemolymph of reproductive queens; alate, virgin queens; and workers, but not in males. Anti-VN, prepared from polygyne egg homogenates, reacted with egg homogenates and with hemolymph VG from reproductive, monogyne and polygyne queens and alate, virgin polygyne queens. Analysis of circulating VG and ovarian development in alate, virgin queens showed that low levels of VG appeared by five days following adult eclosion, but egg development was not observed until seven weeks. VG was evident in newly inseminated queens, and increased steadily for the first three weeks following dealation. VG levels declined slightly near eclosion of the first workers (= nanitics) and dropped sharply after nanitic emergence at five weeks following dealation. Oocyte maturation peaked at days 15-25 following dealation, but otherwise remained low but steady. These studies provide the basis for future investigations into endocrine regulations of vitellogenesis in S. invicta queens.

Hypertrehalosemic hormone in a cockroach: molecular cloning and expression

Hypertrehalosemic hormone (HTH) is a neuropeptide in the adipokinetic hormone/red pigment-concentrating hormone (AKH/RPCH) family that stimulates the synthesis of trehalose, the main blood sugar of many insects. The preproHTH of the cockroach Blaberus discoidalis was cloned from the corpora cardiaca (CC), the endocrine source for HTH, and the deduced sequence and organization of preproHTH were compared with other AKH/RPCH precursors. PreproHTH mRNA was determined to be approximately 0.5 kb in length as predicted by DNA sequence analysis. Northern blot analysis of the CC, ventral nerve cord, brain and fat body detected HTH-mRNA only in the CC. Levels of the HTH transcript in the CC were determined according to age, gender and mating. The HTH message was most abundant in the CC during the first several days of adult life in both sexes, then declined by 50% and were stable. HTH-mRNA levels in the CC did not respond to mating.

A high cholesterol diet elevates hippocampal cytokine expression in an age and estrogen-dependent manner in female rats.

BACKGROUND While the effects of a proatherogenic diet have been widely studied in the context of systemic inflammation, much less is known about its effects on central or brain inflammation and its modulation with age. In this study, we examined the effect of a high cholesterol/choline diet in adult and older acyclic females to assess its impact on systemic and central inflammatory markers. Moreover, since the loss of ovarian hormones at menopause may predispose women to increased production of pro-inflammatory cytokines, we also tested the impact of estrogen replacement to adult and older females in diet-induced inflammation. METHODS Ovariectomized adult female rats and older (reproductive senescent) female rats were replaced with estrogen or a control pellet and maintained thereafter on a diet containing either 4% cholesterol/1% choline or control chow for 10 weeks. Interleukin 1beta (IL-1beta) expression in the liver was used as a marker of systemic inflammation, while a panel of cytokine/chemokines were used to examine the effects of diet on the hippocampus. RESULTS IL-1beta expression was elevated in the liver of adult and reproductive senescent females fed with the high cholesterol diet, although this was restricted to groups that were ovariectomized and not replaced with estrogen. Estrogen-treated animals of both ages did not have elevated IL-1beta levels when fed the high cholesterol diet. Diet-induced changes in cytokine/chemokine expression in the hippocampus however were critically age dependent and restricted to the reproductive senescent females. In this group, the high cholesterol diet led to an increase in interleukin (IL)-4, IL-6, IL-12p70, IL-13, RANTES (Regulated on Activation, Normal T Expressed and Secreted) and VEGF (vascular endothelial growth factor). Moreover, estrogen treatment to reproductive senescent females suppressed diet-induced expression of specific cytokines (RANTES, VEGF, IL-6) and attenuated the expression of others (IL-4, IL-12p70, and IL-13). CONCLUSIONS These data indicate that a proatherogenic diet presents a significant risk for central inflammation in older females that are deprived of estrogen treatment.

Feeding effects on gene expression of the hypertrehalosemic hormone in the cockroach, Blaberus discoidalis.

Feeding effects on hypertrehalosemic hormone (HTH) transcript levels in corpora cardiaca (CC) of adult females of the cockroach, Blaberus discoidalis were measured using dot blot hybridization. HTH transcript levels were nearly doubled in CC from females withheld from food and water for ten days compared to CC from fed females. The increase in HTH-mRNA was a response to starvation, not dehydration, and reversed within 2 days after exposure to food. HTH-mRNA was elevated in CC from fed insects that had their recurrent nerve severed, but low fecal output by insects with severed nerves indicated that feeding and digestion were impaired. Thus, the increased HTH synthesis likely resulted from starvation rather than disruption of neural regulation. CC from starved females that were refed with either solutions or agar that contained glucose did not show down-regulation of HTH-mRNA. Likewise, injections of glucose or trehalose did not suppress HTH-mRNA levels in CC of starving insects. Down-regulation of the starvation-related increase in HTH-mRNA appears to be a response to consumption of a complex of nutrients and not to increased carbohydrates or mechanical aspects of feeding.