MULTILEVEL ANALYSES OF EFFECTS OF VARIATION IN BODY MASS INDEX ON SERUM LIPID CONCENTRATIONS IN MIDDLE-AGED JAPANESE MEN

KONDO, TAKAAKI, KIMATA, AKIKO, YAMAMOTO, KANAMI, UEYAMA, SAYOKO, UEYAMA, JUN, YATSUYA, HIROSHI, TAMAKOSHI, KOJI, HORI, YOKO

02 1900

No description available.

Multilevel analysis

Random effect

Serum lipid

Weight variation

Industrial health

Detection trace compound from human serum by matrix-assisted laser desorption ionization mass spectrometry

Li, Mei-Ching

25 July 2001

none

albumin

MALDI

gel electrophoresis

serum

protein

In gel digestion

Detection trace compound from human serum by matrix-assited laser desorption ionization mass spectrometry and second dimensional gel ectrophoresis

Yang, Ya-Ting

03 July 2002

Detection trace compound from human serum by matrix-assited laser desorption ionization mass spectrometry and second dimensional gel ectrophoresis

serum

protein

trypsin

peptide

MALDI/MS

in gel digestion

gel electrophoresis

Cholesterol lowering effects of bovine serum immunoglobulin in human participants with mild hypercholesterolemia

Black, Melinda Lori

30 October 2006

Hypercholesterolemia is a major risk factor for cardiovascular disease (CVD). Interestingly, the consumption of dairy products, namely milk, has been shown to lower cholesterol. The mechanism of action surrounding this observation has been attributed to the protein fraction of milk. While there have been many studies evaluating the effects of dietary protein sources on cholesterol concentrations, few studies have evaluated specific animal protein components and no human clinical studies regarding the effects of animal plasma protein fractions on cholesterol metabolism have been conducted. This study examined the effect of an oral serum bovine immunoglobulin protein fraction (bIg) derived from US Department of Agriculture approved beef (aged < 30 months) on lipid indices in hypercholesterolemic humans. Participants included men and women (aged 25 – 70 years) with mild hypercholesterolemia (5.44-6.99 mmol/L) who were not receiving cholesterol-lowering medication. Treatment consisted of the randomized, double blind, parallel group, placebo-controlled administration of 5 grams (g) bIg daily for 6 weeks (W) in 52 participants (n = 26 each in treatment and control groups). Mean (± SD) baseline treatment and placebo total cholesterol (TC) was 6.33 ± 0.1 mmol/L and 6.16 ± 0.1 mmol/L respectively. A repeated-measures multivariate analysis of covariance (MANCOVA) covaried for change in total energy and alcohol intake, and a Tukey posthoc examination of the data showed that the bIg-treated group demonstrated a significant reduction in TC at 3-week (W) (5.98 ± 0.5 mmol/L; P < 0.05) and 6-week (W) (5.97 ± 0.7 mmol/L; P > 0.05) intervals compared to baseline. The 6W concentration was significantly lower than the placebo group (P < 0.05). Additionally, study findings displayed no significant changes in the placebo group or in any other lipid indexes or markers associated with hepatorenal or cardiovascular health. Consumption of bIg appears to lower major lipid indexes associated with CVD.

Cholesterol

cardiovascular disease

LDL

lipids

bovine serum immunolgobulin

bIg

Immunochemical Studies on the family of Biotin Binding Proteins

Subramanian, N

01 1900

Investigations detailed in this thesis constitue a part of continuing programme of research work undertaken in this laboratory on vitamin binding proteins. Avidin from the chicken egg white, streptavidin &om the bacterium Streptromyces avidin and biotin binding proteins (BBP-I and BBP-11) from chicken egg yolk constitute a family of proteins that bind the vitamin biotin with extremely high affinities. The yolk BBPs are involved in the deposition of the vitamin in the developing oocyte in chicks whereas an antimicrobial function has been attributkl to avidin.. The fact that all these proteins bind the vitamin in the same manner, unlike biotin-dependent enzymes, indicates that the structural features involved in ligand binding could be similar, if not identical in these proteins. To delineate the basis of putative structural similarity among these proteins, studies were carried out using antibodies as the immunological probes. Avidin, a homotetremer glycoprotein, with a subunit Mr of 17,000 has been purified to homogeneity from chicken egg white using a novel procedure involving ammonium sulphate fractionation, ethanol precipitation and S-Sepharose column chromatography. Despite their lesser abundance in chicken egg yolk associated with a large amount of interfering lipids during the purification, both BBP-I (monomer and shown to be precursor for BBP-11) and BBP-I1 (tetramer) have been purified to homogeneity by employing a common method using butanol extraction to remove the lipids, DEAE-Sephacel column chromatography, biotin-AH-Sepharose affinity chromatography and fast performance liquid chrometography (FPLC) system. The purity of all these proteins was confirmed by SDS-PAGE analysis.

Biochemistry

Biotin Binding Protein

Immunochemical

Antigen

Bovine serum albumin

cDNA

Purification of A Serum Factor That Triggers Cell Cycle Re-entry In Differentiated Newt Myotubes / Aufreinigung eines Serumfactors, welcher den Zellzyklus-Wiedereintritt in differenzierten Salamander-Muskelzellen steuert

Straube, Werner

30 November 2006

In contrast to mammals, some fish and amphibians have retained the ability to regenerate complex body structures or organs, such as the limb, the tail, the eye lens or even parts of the heart. One major difference in the response to injury is the appearance of a mesenchymal growth zone or blastema in these regenerative species instead of the scarring seen in mammals. This blastema is thought to largely derive from the dedifferentiation of various functional cell types, such as skeletal muscle, skin and cartilage. In the case of multinucleated skeletal muscle fibres, cell cycle re-entry into S-phase as well as fragmentation into mononucleated progenitors is observed both in vitro and in vivo. In order to identify molecules that initiate dedifferentiation of cells at the wound site in amphibians we have established a cellular assay with a cultured newt myogenic cell line. Using this assay we have found a serum activity that stimulates cell cycle re-entry in differentiated multinucleated newt myotubes. The activity is present in serum of all mammalian species tested so far and, interestingly, thrombin proteolysis amplifies the activity from both serum and plasma. We think this serum factor provides a link between wounding and regeneration and its identification will be a key step in understanding the remarkable differences in wound healing between mammals and amphibians. In the course of this PhD thesis we have characterized the serum factor as a thermo-labile, pH- and proteinase K-sensitive, high molecular weight protein that is resistant to denaturing conditions such as SDS, urea or organic solvents. Surprisingly, under denaturing conditions the activity behaves as a low molecular weight protein that displays charge heterogeneity on isoelectric focusing. Using these characteristics of the serum factor we have performed a systematic investigation of commonly used protein chromatography modes and separation techniques to develop a successful purification procedure. After four column chromatography steps -- cation exchange, hydrophobic interaction, heparin affinity and size exclusion chromatography under denaturing conditions -- we have achieved a 2,000-fold purification starting from a commercially available Crude Bovine Thrombin preparation. This represents about 40,000-fold purification over bovine serum. Silver stained gels of the most purified fractions revealed ten major protein bands. In order to finally identify the cell cycle re-entry factor, we are currently analyzing the purification by quantitative mass spectrometry by correlating the abundance of tryptic peptides with activity in sequential fractions across a chromatography run.

regeneration

salamander

newt

axolotl

muscle dedifferentiation

cell cycle re-entry

fragmentation

blood

serum

serum factor

purification

Regeneration

Salamander

Axolotl

Muskeldedifferenzierung

Zell-Zyklus

Wiedereintritt

Blut

Serum

Blutprotein

Aufreinigung

ddc:570

rvk:WG 6710

Regeneration

Salamander

Axolotl

Zellzyklus

Blut

Serum

Blutserum

Muskelzelle

Aufreinigung

The relationships of growth with nutrition and serum growth factors inearly life

Tam, Y. M., 譚月明.

January 1999

published_or_final_version / Paediatrics / Doctoral / Doctor of Philosophy

Growth factors.

Serum.

The Relationship Between Fasting Serum Glucose, Brain Metabolism and Neuropsychological Functioning in Older and Younger Adults

Burns, Christine Michelle

January 2014

Objective: To characterize the association between longitudinal changes in fasting serum glucose and changes in flourodeoxyglucose Positron Emission Tomography (FDG PET) measurements of regional cerebral metabolic rate for glucose (rCMRgl) in brain regions preferentially affected by Alzheimer's disease (AD). A secondary objective was to investigate whether higher fasting serum glucose levels are associated with lower rCMRgl in younger adults within these same AD relevant brain areas. Methods: For the primary study, baseline, interim, and 4.4 ± 1.0-year follow-up fasting serum glucose and PET CMRgl were analyzed in 80 cognitively unimpaired, non-diabetic, 61.5 ± 5 year-old persons with a first-degree family history of AD, including 38 carriers and 42 non-carriers of the apolipoprotein E (APOE) ε 4 allele. An automated brain-mapping algorithm was used to characterize associations between changes in fasting serum glucose levels and changes in rCMRgl. Longitudinal changes in fasting serum glucose levels and their correlation with changes in six pre-selected neuropsychological test measures of memory, attention and processing speed were also assessed with linear regression. The secondary study included a cross sectional sample of 31 cognitively unimpaired, non-diabetic participants, 31.2 ±5.4 years of age. General linear model-based voxel-wise analyses were performed to examine the correlation between fasting serum glucose and rCMRgl. Results: In the primary study of older adults, average fasting serum glucose levels increased over longitudinal measurement, and changes in these levels were inversely associated with longitudinal CMRgl changes in the vicinity of brain regions preferentially affected by AD (p<0.05, corrected for multiple comparisons). Fasting serum glucose was also inversely associated with performance on a measure of visuospatial memory (p<0.05, corrected for multiple comparisons). In the younger sample, fasting serum glucose levels were inversely associated with rCMRgl in left frontal pole and right primary visual cortex regions (p<.05, corrected for multiple comparisons).Conclusions: In older adults, fasting serum glucose increases across time and is inversely related to rCMRgl in AD relevant regions and to visual memory test scores. This relationship between serum glucose and regional brain metabolism may begin in metabolically sensitive areas at a younger age.

Positron Emission Tomography

serum glucose

Psychology

Alzheimer's disease

Design of a Novel Serum-free Monolayer Differentiation System for Murine Embryonic Stem Cell-derived Chondrocytes for Potential High-content Imaging Applications

Waese, Yan Ling Elaine

31 August 2011

Cartilage defects have limited capacity for repair and are often replaced by fibrocartilage with inferior mechanical properties. To overcome the limitations of artificial joint replacement, high throughput screens (HTS) could be developed to identify molecules that stimulate differentiation and/or proliferation of articular cartilage for drug therapy or tissue engineering. Currently embryonic stem cells (ESCs) can differentiate into articular cartilage by forming aggregates (embryoid body (EB), pellet, micromass), which are difficult to image. I present a novel, single-step method of generating murine ESC (mESC)-derived chondrocytes in monolayer cultures in chemically defined conditions. Mesoderm induction was achieved in cultures supplemented with BMP4, Activin A or Wnt3a. Prolonged culture with sustained Activin A, TGFβ3 or BMP4 supplementation led to robust chondrogenic induction. A short pulse of Activin A or BMP4 also induced chondrogenesis efficiently while Wnt3a acted as a later inducer. Long-term supplementation with Activin A or with Activin A followed by TGFβ3 may specifically promote articular cartilage formation. Thus, I devised a serum-free (SF) culture system to generate ESC-derived chondrocytes without the establishment of 3D cultures or the aid of cell sorting. Cultures were governed by the same signaling pathways as 3D ESC differentiation systems and limb bud mesenchyme or articular cartilage explant cultures. I am also in the process of creating a Col2a1 promoter-controlled, Cre-inducible reporter cell line to be used in my SF culture system using the Multisite Gateway® cloning technology. ESCs undergoing chondrogenic differentiation can be identified and quantified in HTS via the expression of fluorescent proteins. In addition, this transgenic line can be used to isolate ESC-derived chondrocytes as well as their progeny via cell sorting or antibiotic selection for in-depth characterization. The modular design of my construct system allows transgenic lines to be generated using various promoters of chondrogenic marker genes to perform parallel HTS analyses.

embryonic stem cells

chondrocytes

serum-free

monolayer

0541

0542

Design of a Novel Serum-free Monolayer Differentiation System for Murine Embryonic Stem Cell-derived Chondrocytes for Potential High-content Imaging Applications

Waese, Yan Ling Elaine

31 August 2011

Cartilage defects have limited capacity for repair and are often replaced by fibrocartilage with inferior mechanical properties. To overcome the limitations of artificial joint replacement, high throughput screens (HTS) could be developed to identify molecules that stimulate differentiation and/or proliferation of articular cartilage for drug therapy or tissue engineering. Currently embryonic stem cells (ESCs) can differentiate into articular cartilage by forming aggregates (embryoid body (EB), pellet, micromass), which are difficult to image. I present a novel, single-step method of generating murine ESC (mESC)-derived chondrocytes in monolayer cultures in chemically defined conditions. Mesoderm induction was achieved in cultures supplemented with BMP4, Activin A or Wnt3a. Prolonged culture with sustained Activin A, TGFβ3 or BMP4 supplementation led to robust chondrogenic induction. A short pulse of Activin A or BMP4 also induced chondrogenesis efficiently while Wnt3a acted as a later inducer. Long-term supplementation with Activin A or with Activin A followed by TGFβ3 may specifically promote articular cartilage formation. Thus, I devised a serum-free (SF) culture system to generate ESC-derived chondrocytes without the establishment of 3D cultures or the aid of cell sorting. Cultures were governed by the same signaling pathways as 3D ESC differentiation systems and limb bud mesenchyme or articular cartilage explant cultures. I am also in the process of creating a Col2a1 promoter-controlled, Cre-inducible reporter cell line to be used in my SF culture system using the Multisite Gateway® cloning technology. ESCs undergoing chondrogenic differentiation can be identified and quantified in HTS via the expression of fluorescent proteins. In addition, this transgenic line can be used to isolate ESC-derived chondrocytes as well as their progeny via cell sorting or antibiotic selection for in-depth characterization. The modular design of my construct system allows transgenic lines to be generated using various promoters of chondrogenic marker genes to perform parallel HTS analyses.

embryonic stem cells

chondrocytes

serum-free

monolayer

0541

0542