Seong Joon Park scite author profile

The interaction between influenza virus hemagglutinin and its cell-surface receptor, 5-N-acetylneuraminic acid (sialic acid), was probed by the synthesis of 12 sialic acid analogs, including derivatives at the 2-carboxylate, 5-acetamido, 4-, 7-, and 9-hydroxyl, and glycosidic positions. The equilibrium dissociation constants of these analogs were determined by nuclear magnetic resonance spectroscopy. Ligand modifications that reduced or abolished binding included the replacement of the 2-carboxylate with a carboxamide, the substitution of azido or N-benzyloxycarbonyl groups for the 5-acetamido group, and the replacement of the 9-hydroxyl with amino or O-acetyl moieties. Modifications having little effect on binding included the introduction of longer chains at the 4-hydroxyl position, the replacement of the acetamido methyl group with an ethyl group, and the removal of the 7-hydroxyl group. X-ray diffraction studies yielded 3 A resolution crystal structures of hemagglutinin in complex with four of the synthetic analogs [alpha-2-O-methyl-, 4-O-acetyl-alpha-2-O-methyl-, 9-amino-9-deoxy-alpha-2-O-methyl-, and alpha-2-O-(4'-benzylamidocarboxybutyl)-N-acetylneuraminic acid] and with the naturally occurring cell-surface saccharide (alpha 2-3)sialyllactose. The X-ray studies unambiguously establish the position and orientation of bound sialic acid, indicate the position of the lactose group of (alpha 2-3)sialyllactose, and suggest the location of an alpha-glycosidic chain (4'-benzylamidocarboxybutyl) that increases the binding affinity of sialic acid by a factor of about 3. Although the protein complexed with alpha-2-O-methylsialic acid contains the mutation Gly-135-->Arg near the ligand binding site, the mutation apparently does not affect the ligand's position. The X-ray studies allow us to interpret the binding affinities in terms of the crystallographic structure. The results suggest further experiments which could lead to the design of tight binding inhibitors of possible therapeutic value.

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Oxaliplatin, fluorouracil, and leucovorin versus fluorouracil and leucovorin as adjuvant chemotherapy for locally advanced rectal cancer after preoperative chemoradiotherapy (ADORE): an open-label, multicentre, phase 2, randomised controlled trial

Hong¹,

Nam²,

Kim³

et al. 2014

The Lancet Oncology

354

210

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Aging leads to a programmed loss of brown adipocytes in murine subcutaneous white adipose tissue

et al. 2012

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SUMMARY Insulin sensitivity deteriorates with age, but mechanisms remain unclear. Age-related changes in the function of subcutaneous white adipose tissue (sWAT) are less characterized than those in visceral WAT. We hypothesized that metabolic alterations in sWAT, which in contrast to epididymal WAT, harbors a sub-population of energy dissipating UCP1+ brown adipocytes, promote age-dependent progression towards insulin resistance. Indeed, we show that a predominant consequence of aging in murine sWAT is loss of “browning.” sWAT from young mice is histologically similar to brown adipose tissue (multilocular, UCP1+), but becomes morphologically white by 12 months of age. Correspondingly, sWAT expression of ucp1 precipitously declines (~300-fold) between 3 and 12 months. Loss continues into old age (24 months), and is inversely correlated with the development of insulin resistance. Additional age- dependent changes in sWAT include lower expression of adbr3 and higher expression of maoa, suggesting reduced local adrenergic tone as a potential mechanism. Indeed, treatment with a ®3- adrenergic agonist to compensate for reduced tone rescues the aged sWAT phenotype. Age- related changes in sWAT are not explained by differences in body weight; mice subjected to 40% caloric restriction for 12 months are of similar body weight to 3 month-old ad lib fed mice, but display sWAT resembling that of age-matched ad lib fed mice (devoid of brown adipose-like morphology). Overall, findings identify loss of “browning” in sWAT as a new aging phenomenon, and provide insight into the pathogenesis of age-associated metabolic disease by revealing novel molecular changes tied to systemic metabolic dysfunction.

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Modulation of PPAR in Aging, Inflammation, and Calorie Restriction

Sung

Park²,

Yu³

et al. 2004

The Journals of Gerontology Series A: Biological Sciences and M

135

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Peroxisome proliferator-activated receptors (PPARs), members of the nuclear hormone receptor superfamily of transcription factors, are key regulators in various pathophysiological processes related to energy metabolism including lipid, carbohydrate metabolism, and inflammation. At present, little information is on the effect of age and calorie restriction (CR) on PPARs. In the present study, we investigated how age and CR (60% of the ad libitum intake) modulate PPARs in kidneys obtained from Fischer 344 rats, ages 13 and 25 months. Results showed that nuclear protein, mRNA level, and DNA binding activity of PPARs decreased with age, while CR blunted the reduction. Our findings were verified in separate experiments in which rats were injected with lipopolysaccharide, with the result of increased susceptibility to inflammation. Based on these findings, we conclude that the altered expression of PPARs may be due to increased oxidative stress with age, and that CR prevents these decreases through its antioxidative action.

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The life‐extending effect of dietary restriction requires F oxo3 in mice

et al. 2015

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Forkhead box O (Foxo) transcription factors may be involved in the salutary effect of dietary restriction (DR). This study examined the role of Foxo3 in lifespan extension and cancer suppression in DR mice. Wild-type (WT) and Foxo3-knockout heterozygous (+/–) and homozygous (–/–) mice were subjected to a 30% DR regimen initiated at 12 weeks of age. Control mice were fed ad libitum (AL) throughout the study. In contrast to WT mice, DR did not significantly extend the lifespan of Foxo3+/– or Foxo3–/– mice. However, DR reduced the prevalence of tumors at death in WT, Foxo3+/–, and Foxo3–/– mice. These results indicate the necessity of Foxo3 for lifespan extension but not cancer suppression by DR. The findings in Foxo3+/– mice contrast with those in Foxo1+/– mice reported previously by our laboratory suggest differential regulation of cancer and lifespan by DR via Foxo1 and Foxo3.

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Seong Joon Park

Binding of influenza virus hemagglutinin to analogs of its cell-surface receptor, sialic acid: analysis by proton nuclear magnetic resonance spectroscopy and x-ray crystallography

Oxaliplatin, fluorouracil, and leucovorin versus fluorouracil and leucovorin as adjuvant chemotherapy for locally advanced rectal cancer after preoperative chemoradiotherapy (ADORE): an open-label, multicentre, phase 2, randomised controlled trial

Aging leads to a programmed loss of brown adipocytes in murine subcutaneous white adipose tissue

Modulation of PPAR in Aging, Inflammation, and Calorie Restriction

The life‐extending effect of dietary restriction requires F oxo3 in mice

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