Identification of adipocyte differentiation-related regulatory element for adrenomedullin gene repression (ADRE-AR) in 3T3-L1 cells

The Cardiopulmonary Effects of the Calcitonin Gene-related Peptide Family

Cardiopulmonary diseases are very common among the population. They are high-cost diseases and there are still no definitive treatments. The roles of members of the calcitonin-gene related-peptide (CGRP) family in treating cardiopulmonary diseases have been studied for many years and promising results obtained. Especially in recent years, two important members of the family, adrenomedullin and adrenomedullin2/intermedin, have been considered new treatment targets in cardiopulmonary diseases. In this review, the roles of CGRP family members in cardiopulmonary diseases are investigated based on the studies performed to date.

Hypodermal delivery of cosmetic actives for improved facial skin morphology and functionality

OBJECTIVE

Skin compartments traditionally targeted by cosmetic actives - epidermis and dermis - are anchored and nourished by the underlying hypodermis, which therefore should be a key target for skin-rejuvenating formulations. However, given the difficulty to reach even the superficial layers of the skin, and to its 'unglamorous' fatty composition, the regenerative potential of hypodermis remains largely untapped. Therefore, this study was to investigate the capacity of a cosmetic material to trigger a regenerative response in dermis and epidermis through a selective action on hypodermis. Furthermore, it aimed to establish the effect of such cosmetic material in transbuccal hypodermal delivery form, on the hypodermal precursor cells - the preadipocytes.

METHODS

A combination of grape seed extract and soy phospholipids was formulated and standardized for elastase activity and free radical inhibition. This formulation was then used to contact the hypodermal layer of human skin biopsies and - under a transbuccal delivery vehicle form - the 3T3-L1 preadipocytes, and its effects were quantified using PCR arrays and histochemistry.

RESULTS

Application of the standardized grape/soy material to the hypodermal layer of skin triggered modulation of gene expression in the upper layers of the skin and resulted in the clear morphological improvement at the dermal and epidermal levels. Furthermore, when this material was formulated in a mucoadhesive, intraoral film and applied on 3T3-L1 preadipocytes, the resulting modulation of gene expression in these cells was consistent with differentiation and detoxification effects.

CONCLUSIONS

These results suggest that transbuccal formulations of nutraceutical grade cosmetics have potential to induce signal transduction pathways in facial hypodermis, resulting in anti-aging effects throughout all skin compartments, including dermal and epidermal layers.

The Krüppel-like factor KLF15 inhibits transcription of the adrenomedullin gene in adipocytes

KLF15 (Krüppel-like factor 15) plays a key role in adipocyte differentiation and glucose transport in adipocytes through activation of its target genes. We have now identified six target genes regulated directly by KLF15 in 3T3-L1 mouse adipocytes with the use of a combination of microarray-based chromatin immunoprecipitation and gene expression analyses. We confirmed the direct regulation by KLF15 of one of these genes, that for adrenomedullin, with the use of a luciferase reporter assay in 3T3-L1 preadipocytes and adipocytes. Such analysis revealed that the most proximal CACCC element in the promoter of the human adrenomedullin gene (located in the region spanning nucleotides -70 and -29) is required for trans-inhibition by KLF15. Furthermore, chromatin immunoprecipitation showed that KLF15 binds to this region of the human adrenomedullin gene promoter in cultured human adipocytes. These results thus implicate KLF15 in the regulation of adrenomedullin expression in adipose tissue.

Role of adrenomedullin system in lipid metabolism and its signaling mechanism in cultured adipocytes

We investigated the levels of adrenomedullin (AM) system during the process of preadipocyte differentiation and its role in lipid metabolism and cellular signaling mechanism in differentiated adipocytes. We cultured rat preadipocytes and measured the following during the process of differentiation: two molecular forms of AM in the culture medium using a specific immunoradiometric assay and gene expression of AM and its receptor component using RT-PCR analysis. In differentiated adipocytes, we measured the effects of AM on the intracellular cAMP level, lipolysis, glucose incorporation, and the protein levels. Two molecular forms of AM were secreted into the medium, and the AM-mature/AM-total ratio was increased after 6 days of differentiation. Cultured rat preadipocytes highly expressed the genes of AM and its receptor components at day 1, and they increased at day 10. Administration of AM to preadipocytes increased the number of Oil Red O-positive adipocytes and spectrophotometric absorbance of Oil Red O. AM dose dependently increased cAMP level and lipolysis, and its effect was blocked by CGRP(8-37). Isoproterenol increased lipolysis, and AM had additive effects on isoproterenol-induced lipolysis. KT5720 and U0126 significantly inhibited the AM-induced lipolysis, whereas KT5720, but not U0126, significantly inhibited the isoproterenol-induced lipolysis. AM increased glucose incorporation and its effect was blocked by wortmannin. Western blot analysis revealed that AM increased phospho PKA, ERK, and Akt. These results indicate that AM and its receptor component are highly expressed in cultured adipocytes and may play a role in lipid metabolism via a different signaling pathway.

Synergistic activation of the human adrenomedullin gene promoter by Sp1 and AP-2alpha

Adrenomedullin (AM) is a potent vasodilator peptide, which is ubiquitously expressed and has various biological actions, such as proliferative action and anti-oxidative stress action. AM expression is induced by various stresses, such as hypoxia and inflammatory cytokines, and during cell differentiation. The human AM gene promoter region (-70/-29) contains binding sites for stimulatory protein 1 (Sp1) and activator protein-2alpha (AP-2alpha), and has been shown to be important for the AM gene expression during cell differentiation to macrophages or adipocytes. We here show that Sp1 and AP-2alpha synergistically activate the AM gene promoter. Co-transfection of the reporter plasmid containing the AM promoter region (-103/-29) with Sp1 and AP-2alpha expression plasmids showed that Sp1 and AP-2alpha synergistically increased the promoter activity in HeLa cells. Sp1 or AP-2alpha alone caused only small increases in the promoter activity. EMSA showed that Sp1 bound to the promoter region (-70/-29), whereas AP-2alpha bound to a more upstream promoter region (-103/-71). Thus, the synergistic activation of the human AM gene promoter by Sp1 and AP-2alpha may be mediated by the binding of Sp1 to the promoter region (-70/-29) and the interaction with AP-2alpha, which binds to the promoter region (-103/-71).

Adrenomedullin is a novel adipokine: adrenomedullin in adipocytes and adipose tissues

Adrenomedullin (AM) is a multifunctional regulatory peptide that is produced and secreted by various types of cells. The production and the secretion of AM have been demonstrated in cultured adipocytes and adipose tissues. Inflammatory cytokines such as tumor necrosis factor-alpha (TNF-alpha) and lipopolysaccharide are strong stimulators for AM expression in adipocytes. Furthermore, AM expression in the adipose tissue is increased in obesity, and plasma concentrations of AM are increased in obese subjects. One possible (patho)physiological role of AM secreted by adipose tissue may be actions against complications of the metabolic syndrome characterized by obesity, type 2 diabetic mellitus and hypertension, via its antioxidant and potent vasodilator effects. These findings indicate that AM is a new member of the adipokine family.

Adrenomedullin in adipocyte differentiation of human mesenchymal stem cells

Expression of adrenomedullin (AM), a potent vasodilator peptide, was studied during adipocyte differentiation of human mesenchymal stem cells (hMSCs). Immunoreactive AM levels in the medium were increased at day 4 and 8 of the adipocyte differentiation. Northern blot analysis showed increased expression of AM mRNA in hMSCs-derived adipocytes at day 4, 8, 12, and 18. Transient transfection assay showed that the promoter activity was higher in hMSCs-derived adipocytes than in hMSCs, when cells were transfected with plasmids containing a cis-acting region (-70/-29) of the human AM gene. Electrophoretic mobility shift assay showed that specific bands bound to the region (-70/-29) in hMSCs-derived adipocytes but not in hMSCs, and were abolished by the stimulatory protein 1 (Sp1) antibody. The present study has shown that AM expression is up-regulated during adipocyte differentiation of hMSCs probably via the interaction between Sp1 or Sp1-related factor(s) and the AM promoter region (-70/-29).