Dietary Intake and Bone Mineral Density in Young-Adult Females

Beiseigel, Jeannemarie Mary

23 August 2000

The late second and early third decades of life are critical periods for bone health due to the attainment of peak bone mass during this time, yet little is known about relationships between lifestyle factors and bone health among young-adult females. Therefore, anthropometric, body composition, and nutritional variables were examined in relation to bone mineral density (BMD) and biochemical markers of bone turnover in a group of 60 healthy, young-adult females aged 18 to 25 years. Body weight, body mass index (BMI), fat-free soft tissue mass (FFST), and fat mass had statistically significant and positive associations with BMD. Mean daily dietary protein, magnesium, and iron intakes had statistically significant and negative associations with BMD. A second study compared dietary intake, BMD, and biochemical markers of bone turnover in young-adult females with chronic dieting habits to nondieters. Anthropometric and body composition variables between chronic dieters and nondieters were not statistically different; however, chronic dieters had statistically significantly lower average daily dietary intakes of energy, macronutrients, and selected micronutrients compared to nondieters. Chronic dieters had statistically significantly higher whole body (WB) BMD compared to nondieters. Moderate effects were observed for WB, lumbar spine, trochanter, and total proximal femur BMD such that chronic dieters possessed greater BMD compared to nondieters. It appears that among young-adult females, total body weight, particularly FFST mass, has an important association with BMD. Although nutritional inadequacies among young-adult females raise concerns, overconsumption of nutrients may increase the likelihood of nutrient-nutrient interactions that may have a less than optimal impact on BMD. Future investigations of dietary intake and BMD among young-adult females are warranted. / Master of Science

serum osteocalcin

body composition

bone mineral density

energy restriction

urinary N-telopeptide

dietary intake

young-adult females

Skeletal Status and Bone Turnover in Overweight Young Men with and without Sleep Apnea Syndrome

Guignel, Nadine Joëlle

07 July 2005

Obesity is a worldwide epidemic increasing at an alarming rate among youth who are facing similar health problems as adults. Sleep Apnea Syndrome (SAS) is an underdiagnosed comorbidity of obesity, characterized by repetitive nocturnal interruptions in breathing. Obesity is associated with delayed skeletal maturation in overweight youth, but mechanisms contributing to this problem are unclear. Obesity and SAS both have been shown to disrupt regulatory hormones and cytokines that influence bone accretion during adolescence. PURPOSE: The purpose of this study was to assess the combined effects of excess body weight and SAS on bone mineral density (BMD) and content (BMC), bone turnover, and on the regulatory hormones leptin and IGF-1 known to potentially influence bone accretion during adolescence. METHODS: Men aged 18-28 years were assigned to groups as follows: normal weight controls (CON: AHI <3, n=8); overweight without SAS (OWT: BMI < 26 kg/m2 and AHI <3, n=9); and overweight with SAS (SAS: BMI >26 kg/m2 and AHI >5, n=8). The apnea/hypopnea index (AHI) expresses the score for disrupted nighttime breathing events/hr and was obtained in this study with results from a home sleep screening test. Health history and Epworth Sleepiness Scale (ESS) questionnaires also were administered. Bone mineral parameters and body composition variables were measured with dual-energy X-ray absorptiometry. Serum osteocalcin, leptin, IGF-1, and NTx-1 were measured, respectively, by radioimmunoassay and enzyme-linked immunoabsorbent assay. RESULTS: Fat-free mass, intra-abdominal fat, and fat mass were higher in the SAS and OWT groups (p<0.03). ESS scores revealed that SAS individuals were sleepier than CON and OWT groups (p<0.009). Total body and site-specific BMD and BMC values (lumbar spine, hip, and forearm) were similar between groups and did not relate to the estimated AHI score. Serum OC and NTx-1 did not differ between groups. Leptin levels were 30% higher in OWT and SAS than in the CON group (p<0.02), but did not correlate with the AHI score. Across all subjects (n=25), only lumbar spine BMC (p<0.005) was correlated to AHI (r=-.52; p<0.01). The preponderance of this relationship between AHI and lumbar spine BMC was attributable to the close inverse association of these two variables within the SAS group (r = -.81; p<0.001). CONCLUSION: The effects of SAS were not influenced by the amount of whole-body, intra-abdominal adiposity or lean body mass. Neither leptin nor IGF-1 predicted bone status across all groups. Daytime fatigue and sleepiness, a cardinal symptom of SAS, combined with overweight may contribute to lower lumbar BMC by chronically reducing weight-bearing physical activity and thereby reduce exposure time for mechanical loading of the spine in affected individuals. Further research is needed to explore the biochemical, physiological, and apparently the physical activity implications of SAS on skeletal status and turnover. / Master of Science

Sleep apnea syndrome

Insulin-like growth factor-1

Bone mineral content

Leptin

Osteocalcin

Muscular Strength Training Modifies Regulation of Bone Remodeling: Inferences From Serum Biomarkers in Young Women

Mardock, Michelle Anne

25 August 2003

Biochemical markers of bone turnover allow inference of the events occurring at the bone tissue level and may detect changes in bone cell activity earlier than densitometric technologies. Serum concentrations of receptor activator for nuclear factor kappa-beta ligand (RANKL), osteoprotegerin (OPG), osteocalcin, and N-telopeptide (NTx) were measured in women aged 20 + 1.5 years (mean + SD) who underwent 32 weeks of unilateral isokinetic concentric or eccentric muscular strength training. Changes in serum biomarkers were compared with changes in arm and leg flexor and extensor muscle strength. Dual X-ray absorptiometry (DXA) measures of bone mineral density (BMD) and bone mineral content (BMC) of the total forearm, total tibia, and total body also were assessed. The mean serum OPG concentration increased from 4.6 + 1.9 pmol/L to 5.2 + 2.1 pmol/L (â 14.9 %, mean + SD; p = 0.05, n = 20) following long-term isokinetic exercise training that also increased elbow extensor and knee flexor muscular strength (p < 0.05) and total forearm BMD (p = 0.04). The ratio of OPG/RANKL also increased over the course of the study (p = 0.045). Serum concentrations of other measured bone biomarkers did not change during training. Serum concentrations of OPG, a suppressor of osteoclastogenesis, increased with high-load muscular strength training that led to local increases in muscle strength and BMD. These adaptations may represent an exercise-mediated suppression of osteoclast differentiation and activity. The central role of the RANKL-OPG cytokine system in the regulation of bone cell biology is well established. Further research is needed to confirm the efficacy of using serum OPG and RANKL as biomarkers of bone cell metabolism in healthy populations undergoing long-term exercise interventions. / Master of Science

osteoprotogerin

serum N-telopeptide (NTx)

osteocalcin

Biomarkers of Knee Joint Healing in Adolescents with Anterior Cruciate Ligament Injuries

Ek Orloff, Lisa

25 February 2022

Objective: Anterior cruciate ligament (ACL) injuries are increasing in adolescents and increase the risk for early-onset knee osteoarthritis (OA). Biomarkers can be a non-invasive measure to assess physiological properties following knee injury or trauma. The objective of this thesis was to i) perform a systematic review to determine the most studied biomarkers of knee healing following ACL reconstruction (ACLR), and age of these patients, and ii) explore the feasibility of measuring these biomarkers in adolescents with ACL injuries. Design: Studies were included if i) participants underwent ACLR, and ii) at least one biomarker of healing was measured. Participant age, sample(s) collected, and biomarker(s) studied were recorded. Interleukin-6 (IL-6), c-terminal crosslinking telopeptide of type II collagen (CTX-II) and procollagen type II collagen propeptide (PIICP) were then measured using ELISA in adolescents prior to ACLR in urine (u) and synovial fluid (sf). Spearman’s Rho (rs) coefficients were calculated to determine the association between uCTX-II/sfCTX-II, and uIL-6/sfIL-6. A ratio of PIICP: CTX-II was calculated to represent the ratio of cartilage synthesis to degradation. Results: The review produced six studies evaluating healing following ACLR. IL-6 and CTX-II were the most studied (3/6 studies), and only one study included adolescents (age 19.6±4.5). Due to multiple undetectable biomarker levels, we could only report rs for uCTX-II/sfCTX-II (rs = -.200, p-value = .800, n=4). We also reported a ratio for sfPIICP: sfCTX-II (23.06 ±19.23). Conclusion: Exploring biomarkers in adolescents was motivated by their unique physiology due to puberty, and this was the first study to do so. The findings from this pilot study indicate that further analysis is required to determine optimal sample preparation. This will allow for reliable results while studying the feasibility of these biomarkers during ACLR recovery. This insight can ensure more informed decision making by clinicians clearing patients for return-to-activity.

Adolescents

Anterior Cruciate Ligament (ACL)

Articular Cartilage Degradation

Interleukin-6 (IL-6)

Indices of calcium metabolism and their relationships with arterial structure and function in African women : the PURE study / Lebo Francina Gafane

Gafane, Lebo Francina

January 2013

Motivation - The burden of cardiovascular diseases (CVD) is increasing in developing countries worldwide, but even more so in sub-Saharan Africa. Due to rapid urbanisation, black populations experience lifestyle changes (e.g. unhealthy diet, increased access to alcohol and tobacco) that predispose them to increased obesity and cardiovascular risk. In this study, attention will be given to cardiovascular alterations, specifically arterial calcification, in lean and overweight/obese women nearing or already experiencing menopause. These include elevated blood pressure, large artery stiffness (indicated by increased central pulse pressure (cPP)) and carotid intima-media thickness (CIMT). Other factors linked to arterial calcification include the level of obesity as well as low bone mineral density. Ectopic calcification plays a significant role in cardiovascular morbidity and mortality, especially in renal failure patients, osteoporotic and elderly women. Factors contributing to the development and progression of arterial calcification include calciotropic hormones and altered bone metabolism, particularly in older postmenopausal women. This is due to the lack of protective effects of oestrogen against vascular alterations and bone loss after menopause. Previous studies have shown that increased bone resorption indicated by elevated levels of c-telopeptide of type I collagen (CTX), parathyroid hormone (PTH), low 25- hydroxycholecalciferol (25(OH)D3) and parathyroid hormone to 25-hydroxycholecalciferol ratio (PTH:25(OH)D3) are independently linked to arterial stiffening, CIMT and vascular calcification. Knowledge on the contribution of altered bone metabolism and associated calciotropic hormones on cardiovascular health in Africans is limited. Previous studies on ectopic calcification in South Africans focused on men and renal failure patients. This study will explore the possible role of altered calcium regulation and bone metabolism in the development of arterial calcification and CVD in older African women. Aim - The aim of this study was to investigate the associations of brachial and central pressures and CIMT with PTH, PTH:25(OH)D3 and CTX, a marker of bone resorption, in lean and overweight/obese African women older than 46 years. Methodology - This sub-study forms part of the Prospective Urban Rural Epidemiology (PURE) study. A total of 434 urban and rural women older than 46 years were included in the study. Women infected with the human immunodeficiency virus (HIV) were excluded from the study. The study was reviewed and approved by the Ethics Committee of the North-West University (Potchefstroom campus) and all participants signed an informed consent form prior to enrolment into the project. Field workers administered demographic, general health and physical activity questionnaires in the participants’ home language. Anthropometric measurements included weight, height and waist circumference, while body mass index (BMI) was calculated in kg/m2. Cardiovascular measurements included brachial and central systolic blood pressure (SBP), brachial diastolic blood pressure (DBP), brachial and central pulse pressure (PP) as well as CIMT and carotid cross-sectional wall area (CSWA). Blood pressure measurements were performed on the right arm with the participant in the sitting position. Blood was drawn after an overnight fasting period. We performed biochemical analyses from serum and plasma samples for follicle stimulating hormone (FSH), PTH, 25(OH)D3, and CTX. HIV testing was performed according to standardised procedures. Since interactions existed for BMI with regards to associations of CIMT and cPP with PTH:25(OH)D3, the study population was divided into the lean (BMI <25 kg/m2) and overweight/obese (BMI ≥25 kg/m2) groups. We performed independent T-tests to compare means and used the chi-square test to compare proportions. Single and multiple regression analyses were performed to investigate the associations of markers of vascular structure and function with CTX and calciotropic hormones. Results - In this study, 90% of the women displayed an FSH concentration exceeding the cut-off value of 35 mIu/mL, indicating a postmenopausal state. When comparing lean and overweight/obese African women, we found that lean women had higher levels of CTX and 25(OH)D3 (both p<0.001), while the overweight/obese group was older (p=0.007) and presented with higher PTH and PTH:25(OH)D3 levels (both p<0.001). Brachial and central pressures did not differ between the groups (p≥0.23), except for DBP being higher in the overweight/obese group (p=0.017). Overweight/obese women had higher CIMT (p<0.001) and CSWA (p=0.001) as compared to their lean counterparts. A larger proportion of lean women smoked (63%) and self-reported on alcohol use (37%) than overweight/obese women (41% and 18%, respectively) (both p<0.001). Forty-one percent of overweight/obese women used antihypertensive medication, opposed to 25% in the lean group (p=0.001). In multivariate regression analyses, an independent positive association existed between CIMT and PTH:25(OH)D3 (R2=0.22; β=0.26; p=0.003) in lean women. In the overweight/obese group independent positive associations were confirmed between brachial SBP and PTH (p=0.013) and CTX (p=0.038), and between DBP and PTH (p=0.030). Brachial PP and central SBP remained positively associated with CTX (p=0.016 and p=0.024, respectively), while cPP was independently associated with PTH:25(OH)D3 (R2=0.20; β=0.17; p=0.017) and CTX (R2=0.20; β=0.17; p=0.025). Conclusion - Our results indicate that in older African women, large artery structure and function are associated with calciotropic hormones and bone resorption, suggesting that altered bone metabolism and associated calciotropic hormones play a role in the development of vascular calcification. The different associations in lean and overweight/obese women suggest different mechanisms at work regarding arterial calcification in states of low and high adiposity. These findings need confirmation in larger prospective and experimental studies. / MSc (Physiology), North-West University, Potchefstroom Campus, 2014

Parathyroid hormone

25-hydroxycholecalciferol

c-telopeptide of type I collagen

Carotid intima-media thickness

Arterial stiffness

Pulse pressure

Postmenopausal women

Paratiroïedhormoon

25-hidroksiecholekalsiferol

c-telopeptied van klas I kollageen

Karotis intima-media dikte

Arteriële styfheid

Polsdruk

Postmenopousale vroue

Indices of calcium metabolism and their relationships with arterial structure and function in African women : the PURE study / Lebo Francina Gafane

Gafane, Lebo Francina

January 2013

Motivation - The burden of cardiovascular diseases (CVD) is increasing in developing countries worldwide, but even more so in sub-Saharan Africa. Due to rapid urbanisation, black populations experience lifestyle changes (e.g. unhealthy diet, increased access to alcohol and tobacco) that predispose them to increased obesity and cardiovascular risk. In this study, attention will be given to cardiovascular alterations, specifically arterial calcification, in lean and overweight/obese women nearing or already experiencing menopause. These include elevated blood pressure, large artery stiffness (indicated by increased central pulse pressure (cPP)) and carotid intima-media thickness (CIMT). Other factors linked to arterial calcification include the level of obesity as well as low bone mineral density. Ectopic calcification plays a significant role in cardiovascular morbidity and mortality, especially in renal failure patients, osteoporotic and elderly women. Factors contributing to the development and progression of arterial calcification include calciotropic hormones and altered bone metabolism, particularly in older postmenopausal women. This is due to the lack of protective effects of oestrogen against vascular alterations and bone loss after menopause. Previous studies have shown that increased bone resorption indicated by elevated levels of c-telopeptide of type I collagen (CTX), parathyroid hormone (PTH), low 25- hydroxycholecalciferol (25(OH)D3) and parathyroid hormone to 25-hydroxycholecalciferol ratio (PTH:25(OH)D3) are independently linked to arterial stiffening, CIMT and vascular calcification. Knowledge on the contribution of altered bone metabolism and associated calciotropic hormones on cardiovascular health in Africans is limited. Previous studies on ectopic calcification in South Africans focused on men and renal failure patients. This study will explore the possible role of altered calcium regulation and bone metabolism in the development of arterial calcification and CVD in older African women. Aim - The aim of this study was to investigate the associations of brachial and central pressures and CIMT with PTH, PTH:25(OH)D3 and CTX, a marker of bone resorption, in lean and overweight/obese African women older than 46 years. Methodology - This sub-study forms part of the Prospective Urban Rural Epidemiology (PURE) study. A total of 434 urban and rural women older than 46 years were included in the study. Women infected with the human immunodeficiency virus (HIV) were excluded from the study. The study was reviewed and approved by the Ethics Committee of the North-West University (Potchefstroom campus) and all participants signed an informed consent form prior to enrolment into the project. Field workers administered demographic, general health and physical activity questionnaires in the participants’ home language. Anthropometric measurements included weight, height and waist circumference, while body mass index (BMI) was calculated in kg/m2. Cardiovascular measurements included brachial and central systolic blood pressure (SBP), brachial diastolic blood pressure (DBP), brachial and central pulse pressure (PP) as well as CIMT and carotid cross-sectional wall area (CSWA). Blood pressure measurements were performed on the right arm with the participant in the sitting position. Blood was drawn after an overnight fasting period. We performed biochemical analyses from serum and plasma samples for follicle stimulating hormone (FSH), PTH, 25(OH)D3, and CTX. HIV testing was performed according to standardised procedures. Since interactions existed for BMI with regards to associations of CIMT and cPP with PTH:25(OH)D3, the study population was divided into the lean (BMI <25 kg/m2) and overweight/obese (BMI ≥25 kg/m2) groups. We performed independent T-tests to compare means and used the chi-square test to compare proportions. Single and multiple regression analyses were performed to investigate the associations of markers of vascular structure and function with CTX and calciotropic hormones. Results - In this study, 90% of the women displayed an FSH concentration exceeding the cut-off value of 35 mIu/mL, indicating a postmenopausal state. When comparing lean and overweight/obese African women, we found that lean women had higher levels of CTX and 25(OH)D3 (both p<0.001), while the overweight/obese group was older (p=0.007) and presented with higher PTH and PTH:25(OH)D3 levels (both p<0.001). Brachial and central pressures did not differ between the groups (p≥0.23), except for DBP being higher in the overweight/obese group (p=0.017). Overweight/obese women had higher CIMT (p<0.001) and CSWA (p=0.001) as compared to their lean counterparts. A larger proportion of lean women smoked (63%) and self-reported on alcohol use (37%) than overweight/obese women (41% and 18%, respectively) (both p<0.001). Forty-one percent of overweight/obese women used antihypertensive medication, opposed to 25% in the lean group (p=0.001). In multivariate regression analyses, an independent positive association existed between CIMT and PTH:25(OH)D3 (R2=0.22; β=0.26; p=0.003) in lean women. In the overweight/obese group independent positive associations were confirmed between brachial SBP and PTH (p=0.013) and CTX (p=0.038), and between DBP and PTH (p=0.030). Brachial PP and central SBP remained positively associated with CTX (p=0.016 and p=0.024, respectively), while cPP was independently associated with PTH:25(OH)D3 (R2=0.20; β=0.17; p=0.017) and CTX (R2=0.20; β=0.17; p=0.025). Conclusion - Our results indicate that in older African women, large artery structure and function are associated with calciotropic hormones and bone resorption, suggesting that altered bone metabolism and associated calciotropic hormones play a role in the development of vascular calcification. The different associations in lean and overweight/obese women suggest different mechanisms at work regarding arterial calcification in states of low and high adiposity. These findings need confirmation in larger prospective and experimental studies. / MSc (Physiology), North-West University, Potchefstroom Campus, 2014

Parathyroid hormone

25-hydroxycholecalciferol

c-telopeptide of type I collagen

Carotid intima-media thickness

Arterial stiffness

Pulse pressure

Postmenopausal women

Paratiroïedhormoon

25-hidroksiecholekalsiferol

c-telopeptied van klas I kollageen

Karotis intima-media dikte

Arteriële styfheid

Polsdruk

Postmenopousale vroue

Étude du modèle d’arthrose par rupture du ligament croisé crânial chez le lapin : suivi biologique et évaluation histologique / Histological and biological analysis of anterior cruciate ligament transection experimental model in young and adult rabbits

Duclos, Marie-Ève

12 February 2010

Les objectifs de ce travail étaient l’évaluation de stades précoces et tardifs de l’arthrose grâce à une étude histologique et biologique de l’arthrose sur un modèle de rupture de ligament croisé crânial chez le lapin (RLCC) et l’évaluation de l’effet de l’âge sur l’évolution de la maladie. L’étude biologique a été réalisée par le dosage sérique d’un marqueur de la dégradation du collagène de type II, le CTX-II, jusqu’à 20 semaines post-chirurgie. Chez les animaux adultes, les concentrations du CTX-II étaient influencées par la chirurgie et par le développement de la pathologie. Chez les jeunes animaux, les niveaux de CTX-II étaient plus élevés en début d’étude et diminuaient au cours du temps. Chez ce groupe d'animaux, les taux de CTX-II n’étaient pas modifiés par l’intervention chirurgicale. L’étude histologique a été réalisée avec une analyse histomorphologique du cartilage et des analyses histomorphométriques du cartilage et de l’os sous-chondral. L’évaluation histologique a permis d’observer des changements liés à l’arthrose chez tous les animaux opérés. Les altérations au niveau du cartilage étaient plus sévères chez les animaux adultes que chez les jeunes, ces derniers présentant une meilleure capacité de compensation à l’instabilité articulaire. Il a été démontré que l’analyse de la plaque osseuse sous-chondrale a permis de distinguer les animaux opérés des animaux non-opérés dans les 2 groupes d’âge, mais les surfaces articulaires affectées n’étaient pas toujours les mêmes. En conclusion, ce travail suggère l’intérêt du CTX-II dans l’évaluation de l’arthrose, mais aussi la pertinence d’effectuer plusieurs temps d’analyse pour mieux connaître l’évolution de la maladie. Les analyses histologiques ont permis de mettre en évidence des changements au niveau du cartilage et de l’os sous-chondral. Les différences observées entre les lapins adultes et les jeunes remettent en question l'utilisation d’animaux trop jeunes dans les études portant sur l’arthrose / The goals of this work were the evaluation of early and late stages of osteoarthritis through a histological and biological study of osteoarthritis using a rabbit model of the anterior cruciate ligament transaction (ACLT) and the evaluation of the effect of age on the evolution of the disease. Biological study was performed with longitudinal analysis of serum level of CTX-II, a marker a type II collagen degradation. In adult animals, serum concentration of CTX-II was influenced by the ACLT surgery and varied with time. In the young rabbits, the serum levels of CTX-II were more elevated at the beginning of study and decrease after. In this animal group, the rates of CTX-II were not influenced by surgical operation. Histological study was accomplished with both histomorphological analysis of the cartilage and with histomorphometric study of both cartilage and sub-chondral bone. Histological evaluation showed osteoarthritis changes in all operated animals. Changes of the cartilage appeared more severe in the adult group compared to the young rabbits, suggesting that these last have a better compensation capacity during articular instability. Bony changes allowed to differentiate operated animals from the unoperated, but the affected articular surfaces were not always the same. In conclusion, this study suggest the interest of the CTX-II biomarker in the evaluation of osteoarthritis, but also the pertinence to perform several time points of analysis to know better the disease evolution. The histological analysis allowed to put in an obvious place changes at the levels of the cartilage and of the sub-chondral bone. Difference noticed between the adult animals and the young rabbits offers a new look for the use of too young animals in osteoarthritis studies

Modèle animal

Arthrose

Biomarqueur

Cartilage

Collagène de type II

Os sous-chondral

Histologie

Animal model

Osteoarthritis

Biomarker

Collagen type II C-telopeptide (CTX-II)

Cartilage

Type II collagen

Sub-chondral bone

Histology

616.722

Structural Analysis of Reconstituted Collagen Type I - Heparin Cofibrils / Strukturanalyse von rekonstituierten Kollagen Typ I - Heparin Kofibrillen

Stamov, Dimitar

25 March 2010

Synthetic biomaterials are constantly being developed and play central roles in contemporary strategies in regenerative medicine and tissue engineering as artificial extracellular microenvironments. Such scaffolds provide 2D- and 3D-support for interaction with cells and thus convey spatial and temporal control over their function and multicellular processes, such as differentiation and morphogenesis. A model fibrillar system with tunable viscoelastic properties, comprised of 2 native ECM components like collagen type I and the GAG heparin, is presented here. Although the individual components comply with the adhesive, mechanical and bioinductive requirements for artificial reconstituted ECMs, their interaction and structural characterization remains an intriguing conundrum. The aim of the work was to analyze and structurally characterize a xenogeneic in vitro cell culture scaffold reconstituted from two native ECM components, collagen type I and the highly negatively charged glycosaminoglycan heparin. Utilizing a broad spectrum of structural analysis it could be shown that pepsin-solubilized collagen type I fibrils, reconstituted in vitro in the presence of heparin, exhibit an unusually thick and straight shape, with a non-linear dependence in size distribution, width-to-length ratio, and morphology over a wide range of GAG concentrations. The experiments imply a pronounced impact of the nucleation phase on the cofibril morphology as a result of the strong electrostatic interaction of heparin with atelocollagen. Heparin is assumed to stabilize the collagen-GAG complexes and to enhance their parallel accretion during cofibrillogenesis, furthermore corroborated by the heparin quantitation data showing the GAG to be intercalated as a linker molecule with a specific binding site inside the cofibrils. In addition, the exerted morphogenic effect of the GAG, appears to be influenced by factors as degree of sulfation, charge, and concentration. Further detailed structural analysis of the PSC-heparin gels using TEM and SFM showed a hierarchy involving 3 different structural levels and banding patterns in the system: asymmetric segment longspacing (SLS) fibrils and symmetric segments with an average periodicity (AP) of 250 - 260 nm, symmetric fibrous longspacing (FLS IV) nanofibrils with AP of 165 nm, and cofibrils exhibiting an asymmetric D-periodicity of 67 nm with a striking resemblance to the native collagen type I banding pattern. The intercalation of the high negatively charged heparin in the cofibrils was suggested as the main trigger for the hierarchical formation of the polymorphic structures. We also proposed a model explaining the unexpected presence of a symmetric and asymmetric form in the system and the principles governing the symmetric or asymmetric fate of the molecules. The last section of the experiments showed that the presence of telopeptides and heparin both had significant effects on the structural and mechanical characteristics of in vitro reconstituted fibrillar collagen type I. The implemented structural analysis showed that the presence of telopeptides in acid soluble collagen (ASC) impeded the reconstitution of D-periodic collagen fibrils in the presence of heparin, leaving behind only a symmetric polymorphic form with a repeating unit of 165 nm (FLS IV). Further x-ray diffraction analysis of both telopeptide-free and telopeptide-intact collagen fibrils showed that the absence of the flanking non-helical termini in pepsin-solubilized collagen (PSC) resulted in a less compact packing of triple helices of atelocollagen with an increase of interhelical distance from 1.0 to 1.2 nm in dried samples. The looser packing of the triple helices was accompanied by a decrease in bending stiffness of the collagen fibrils, which demonstrated that the intercalated heparin cannot compensate for the depletion of telopeptides. Based on morphological, structural and mechanical differences between ASC and PSC-heparin fibrils reported here, we endorsed the idea that heparin acts as an intrafibrillar cross-linker which competed for binding sites at places along the atelocollagen helix that are occupied in vivo by telopeptides in the fibrillar collagen type I. The performed studies are of particular interest for understanding and gaining control over a rather versatile and already exploited xenogeneic cell culture system. The reconstituted cofibrils with their unusual morphology and GAG intercalation – a phenomenon not reported in vivo – are expected to exhibit interesting biochemical behavior as a biomaterial for ECM scaffolds. Varying the experimental conditions, extent of telopeptide removal, and heparin concentration provides powerful means to control the kinetics, structure, dimensions, as well as mechanical properties of the system which is particularly important for predicting a certain cell behavior towards the newly developed matrix. The GAG intercalation could be interesting for studies with required long-term 'release upon demand' of the GAG, as well as native binding and stabilization of growth factors, cytokines, chemokines, thus providing a secondary tool to control cell signaling and fate, and later on tissue morphogenesis. / Synthetische Biomaterialien werden stetig weiterentwickelt und spielen als künstliche Mikroumgebungen eine zentrale Rolle in den modernen Strategien der regenerativen Medizin und des Tissue Engineerings. Solche sogenannten Scaffolds liefern eine 2D- und 3D-Struktur zur Interaktion mit Zellen und üben somit eine räumliche und zeitliche Kontrolle auf ihre Funktion und multizelluläre Prozesse aus, wie die Differenzierung und Morphogenese. Obwohl häufig die adhäsiven, mechanischen und bioinduzierenden Eigenschaften von Einzelkomponenten aus natürlichen Bestandteilen der extrazellulären Matrix (ECM) rekonstituierten Trägerstrukturen bekannt sind, bleiben die funktionalen und strukturellen Auswirkungen in Mehrkomponentensystemen eine faszinierende Fragestellung. Das Ziel der Arbeit war die Analyse und die strukturelle Charakterisierung einer xenogenen in vitro Zellkultur-Trägerstruktur, die aus den zwei nativen ECM Komponenten Kollagen Typ I und das stark negativ geladene Glykosaminoglykan (GAG) Heparin rekonstituiert wurde. Unter Nutzung eines breiten Spektrums von Methoden zur strukturellen Analyse konnte gezeigt werden, dass im Beisein von Heparin rekonstituierte Pepsin-gelöste Kollagen Typ I Fibrillen eine ungewöhnlich dicke und gerade Form, mit nichtlinearen Abhängigkeiten der Größenverteilung, des Breite-zu-Länge Verhältnises und der Morphologie für eine Reihe von GAG Konzentrationen, aufweisen. Die Experimente deuten auf eine besondere Wirkung der Nukleierungsphase auf die Kofibrillmorphologie hin, als Folge der starken elektrostatischen Inteaktionen Heparins mit Atelokollagen. Es wird angenommen, dass Heparin die Komplexe aus Kollagen-GAG stabilisiert, die parallele Anlagerung während der Kofibrillogenese verbessert und dass überdies, belegt durch Heparin Quantitätsdaten, als Verbindungsmolekül mit einer spezifischen Anbindungsstelle innerhalb der Kofibrillen eingelagert wird. Darüber hinaus scheint der ausgeübte morphogene Effekt des GAGs Heparins von Faktoren wie Grad der Sulfatierung, Ladung und Konzentration abzuhängen. Weitere detailierte Strukturanalysen der PSC - Heparin Gele mit TEM und SFM zeigten eine Hierarchie mit drei unterschiedlichen strukturellen Ebenen und Bandmustern im System: asymmetrisch segmentierte, weitabständige Fibrillen (SLS) und symmetrische Segmente mit einem AP von 250-260 nm, symmetrische fibrose weitabständige (FLS IV) Nanofibrillen mit einem AP von von 165 nm und Kofibrillen asymmetrischer D-Periodizität von 67 nm, die eine erstaunliche Ähnlichkeit zum natürlichen Kollagen Typ I Bandmuster haben. Die Einlagerung des sehr negativ geladenen Heparins in die Kofibrillen wurde als Hauptauslöser der hierarchischen Formation der polymorphen Strukturen betrachtet. Wir schlugen ebenso ein Model vor, welches sowohl das unerwartete Vorhandensein symmetrischer und asymmetrischer Formen im System als auch die Regeln erklärt, die das symmetrische oder asymmetrische Schicksal der Moleküle steuern. Der letzte Abschnitt der Experimente zeigte, dass die Anwesenheit der Telopeptide und Heparins eine signifikante Wirkung auf die strukturellen und mechanischen Charakteristika der in vitro rekonstituierten Kollagen Typ I Fibrillen hatte. Die durchgeführten Strukturanalysen zeigten außerdem, dass die Anwesenheit der Telopeptide in säurelöslichem Kollagen (ASC) die Rekonstitution D-periodischer Kollagenfibrillen mit Heparin verhinderte, sodass nur symmetrisch polymorphe Formen mit einer Wiederholeinheit von 165 nm möglich waren (FLS IV). Weitere Messungen der Telopeptid-freien und Telopeptid-intakten Kollagenfibrillen mit Röntgendiffraktometrie ergaben, dass die Abwesenheit der nicht-helix-strukturierten Enden in Pepsin-gelöstem Kollagen (PSC) zu einer weniger kompakten Anordnung der Tripelhelices von Atelokollagen führte. Der interhelix Abstand erhöhte sich von 1,0 zu 1,2 nm für getrocknete Proben. Das zeigt, dass die losere Anordnung der Tripelhelices einhergeht mit der Verringerung der Biege-Elastizitäts-module der Kollagenfibrillen,. Basierend auf den hier vorgestellten morphologischen, strukturellen und mechanischen Unterschieden zwischen ASC und PSC-Heparin Fibrillen wird die Idee unterstützt, dass Heparin als intrafibrillärer Vernetzer fungiert und an Bindungsstellen der Helix bindet, welche in vivo bei Kollagen Typ I Fibrillen durch Telopeptide besetzt sind. Die durchgeführten Studien sind von besonderem Interesse für das Verständnis und die Steuerung eines sehr vielseitigen und bereits verwendeten xenogenes Zellkultursystem für das Tissue Engineering. Von den rekonstituierten Kofibrillen mit ihrer ungewöhnlichen Morphologie und GAG Einlagerung - ein in vivo nicht bekanntes Phänomen - erwartet man, dass sie ein intressantes biochemisches Verhalten als Biomaterial für ECM Scaffolds zeigen. Variationen der experimentellen Bedingungen, des Ausmaßes der Telopeptidentfernung und der Heparinkonzentration liefern vielfältige Möglichkeiten um die Kinetik, Struktur, Dimension sowie die mechanischen Eigenschaften des Systems zu kontrollieren. Damit sollte es möglich sein, ein bestimmtes Zellverhalten gegenüber der neu entwickelten Matrix vorherzusagen. Die GAG-Einlagerung bietet interessante Optionen für eine langfristige Freisetzung des GAGs 'on demand', sowie die native Bindung und Stabilisierung von Wachstumsfaktoren, Cytokinen, Chemokinen, womit zusätzlich Zellsignalisierung und -schicksal und später Gewebemorphogenese kontrolliert werden kann.

Biomaterials

Collagen Type I

Telopeptides

Heparin

Glycosaminoglycan

GAG

Extracellular Matrix

ECM

Structural Polymorphism

Electron Microscopy

Scanning Force Microscopy

SFM

Biomaterialien

Kollagen Typ I

Telopeptide

Heparin

Glykosaminoglykan

GAG

Extrazelluläre Matrix

ECM

Struktureller Polymorphismus

Elektronenmikroskopie

Rasterkraftmikroskopie

SFM

ddc:620

rvk:ZM 7070

Cyclopeptides containing the DEKS motif as conformationally restricted collagen telopeptide analogues: synthesis and conformational analysis

Wodtke, Robert, Ruiz-Gómez, Gloria, Kuchar, Manuela, Pisabarro, M. Teresa, Novotná, Pavlina, Urbanová, Marie, Steinbach, Jörg, Pietzsch, Jens, Löser, Reik

07 January 2020

The collagen telopeptides play an important role for lysyl oxidase-mediated crosslinking, a process which is deregulated during tumour progression. The DEKS motif which is located within the N-terminal telopeptide of the α1 chain of type I collagen has been suggested to adopt a βI-turn conformation upon docking to its triple-helical receptor domain, which seems to be critical for lysyl oxidase-catalysed deamination and subsequent crosslinking by Schiff-base formation. Herein, the design and synthesis of cyclic peptides which constrain the DEKS sequence in a β-turn conformation will be described. Lysine-side chain attachment to 2-chlorotrityl chloride-modified polystyrene resin followed by microwave-assisted solid-phase peptide synthesis and on-resin cyclisation allowed for an efficient access to head-to-tail cyclised DEKS-derived cyclic penta- and hexapeptides. An Nε-(4-fluorobenzoyl)lysine residue was included in the cyclopeptides to allow their potential radiolabelling with fluorine-18 for PET imaging of lysyl oxidase. Conformational analysis by ¹H NMR and chiroptical (electronic and vibrational CD) spectroscopy together with MD simulations demonstrated that the concomitant incorporation of a D-proline and an additional lysine for potential radiolabel attachment accounts for a reliable induction of the desired βI-turn structure in the DEKS motif in both DMSO and water as solvents. The stabilised conformation of the cyclohexapeptide is further reflected by its resistance to trypsin-mediated degradation. In addition, the deaminated analogue containing allysine in place of lysine has been synthesised via the corresponding ε-hydroxynorleucine containing cyclohexapeptide. Both ε-hydroxynorleucine and allysine containing cyclic hexapeptides have been subjected to conformational analysis in the same manner as the lysine-based parent structure. Thus, both a conformationally restricted lysyl oxidase substrate and product have been synthetically accessed, which will enable their potential use for molecular imaging of these important enzymes.

info:eu-repo/classification/ddc/540

ddc:540

Structural Analysis of Reconstituted Collagen Type I - Heparin Cofibrils

Stamov, Dimitar

15 March 2010

Synthetic biomaterials are constantly being developed and play central roles in contemporary strategies in regenerative medicine and tissue engineering as artificial extracellular microenvironments. Such scaffolds provide 2D- and 3D-support for interaction with cells and thus convey spatial and temporal control over their function and multicellular processes, such as differentiation and morphogenesis. A model fibrillar system with tunable viscoelastic properties, comprised of 2 native ECM components like collagen type I and the GAG heparin, is presented here. Although the individual components comply with the adhesive, mechanical and bioinductive requirements for artificial reconstituted ECMs, their interaction and structural characterization remains an intriguing conundrum. The aim of the work was to analyze and structurally characterize a xenogeneic in vitro cell culture scaffold reconstituted from two native ECM components, collagen type I and the highly negatively charged glycosaminoglycan heparin. Utilizing a broad spectrum of structural analysis it could be shown that pepsin-solubilized collagen type I fibrils, reconstituted in vitro in the presence of heparin, exhibit an unusually thick and straight shape, with a non-linear dependence in size distribution, width-to-length ratio, and morphology over a wide range of GAG concentrations. The experiments imply a pronounced impact of the nucleation phase on the cofibril morphology as a result of the strong electrostatic interaction of heparin with atelocollagen. Heparin is assumed to stabilize the collagen-GAG complexes and to enhance their parallel accretion during cofibrillogenesis, furthermore corroborated by the heparin quantitation data showing the GAG to be intercalated as a linker molecule with a specific binding site inside the cofibrils. In addition, the exerted morphogenic effect of the GAG, appears to be influenced by factors as degree of sulfation, charge, and concentration. Further detailed structural analysis of the PSC-heparin gels using TEM and SFM showed a hierarchy involving 3 different structural levels and banding patterns in the system: asymmetric segment longspacing (SLS) fibrils and symmetric segments with an average periodicity (AP) of 250 - 260 nm, symmetric fibrous longspacing (FLS IV) nanofibrils with AP of 165 nm, and cofibrils exhibiting an asymmetric D-periodicity of 67 nm with a striking resemblance to the native collagen type I banding pattern. The intercalation of the high negatively charged heparin in the cofibrils was suggested as the main trigger for the hierarchical formation of the polymorphic structures. We also proposed a model explaining the unexpected presence of a symmetric and asymmetric form in the system and the principles governing the symmetric or asymmetric fate of the molecules. The last section of the experiments showed that the presence of telopeptides and heparin both had significant effects on the structural and mechanical characteristics of in vitro reconstituted fibrillar collagen type I. The implemented structural analysis showed that the presence of telopeptides in acid soluble collagen (ASC) impeded the reconstitution of D-periodic collagen fibrils in the presence of heparin, leaving behind only a symmetric polymorphic form with a repeating unit of 165 nm (FLS IV). Further x-ray diffraction analysis of both telopeptide-free and telopeptide-intact collagen fibrils showed that the absence of the flanking non-helical termini in pepsin-solubilized collagen (PSC) resulted in a less compact packing of triple helices of atelocollagen with an increase of interhelical distance from 1.0 to 1.2 nm in dried samples. The looser packing of the triple helices was accompanied by a decrease in bending stiffness of the collagen fibrils, which demonstrated that the intercalated heparin cannot compensate for the depletion of telopeptides. Based on morphological, structural and mechanical differences between ASC and PSC-heparin fibrils reported here, we endorsed the idea that heparin acts as an intrafibrillar cross-linker which competed for binding sites at places along the atelocollagen helix that are occupied in vivo by telopeptides in the fibrillar collagen type I. The performed studies are of particular interest for understanding and gaining control over a rather versatile and already exploited xenogeneic cell culture system. The reconstituted cofibrils with their unusual morphology and GAG intercalation – a phenomenon not reported in vivo – are expected to exhibit interesting biochemical behavior as a biomaterial for ECM scaffolds. Varying the experimental conditions, extent of telopeptide removal, and heparin concentration provides powerful means to control the kinetics, structure, dimensions, as well as mechanical properties of the system which is particularly important for predicting a certain cell behavior towards the newly developed matrix. The GAG intercalation could be interesting for studies with required long-term 'release upon demand' of the GAG, as well as native binding and stabilization of growth factors, cytokines, chemokines, thus providing a secondary tool to control cell signaling and fate, and later on tissue morphogenesis. / Synthetische Biomaterialien werden stetig weiterentwickelt und spielen als künstliche Mikroumgebungen eine zentrale Rolle in den modernen Strategien der regenerativen Medizin und des Tissue Engineerings. Solche sogenannten Scaffolds liefern eine 2D- und 3D-Struktur zur Interaktion mit Zellen und üben somit eine räumliche und zeitliche Kontrolle auf ihre Funktion und multizelluläre Prozesse aus, wie die Differenzierung und Morphogenese. Obwohl häufig die adhäsiven, mechanischen und bioinduzierenden Eigenschaften von Einzelkomponenten aus natürlichen Bestandteilen der extrazellulären Matrix (ECM) rekonstituierten Trägerstrukturen bekannt sind, bleiben die funktionalen und strukturellen Auswirkungen in Mehrkomponentensystemen eine faszinierende Fragestellung. Das Ziel der Arbeit war die Analyse und die strukturelle Charakterisierung einer xenogenen in vitro Zellkultur-Trägerstruktur, die aus den zwei nativen ECM Komponenten Kollagen Typ I und das stark negativ geladene Glykosaminoglykan (GAG) Heparin rekonstituiert wurde. Unter Nutzung eines breiten Spektrums von Methoden zur strukturellen Analyse konnte gezeigt werden, dass im Beisein von Heparin rekonstituierte Pepsin-gelöste Kollagen Typ I Fibrillen eine ungewöhnlich dicke und gerade Form, mit nichtlinearen Abhängigkeiten der Größenverteilung, des Breite-zu-Länge Verhältnises und der Morphologie für eine Reihe von GAG Konzentrationen, aufweisen. Die Experimente deuten auf eine besondere Wirkung der Nukleierungsphase auf die Kofibrillmorphologie hin, als Folge der starken elektrostatischen Inteaktionen Heparins mit Atelokollagen. Es wird angenommen, dass Heparin die Komplexe aus Kollagen-GAG stabilisiert, die parallele Anlagerung während der Kofibrillogenese verbessert und dass überdies, belegt durch Heparin Quantitätsdaten, als Verbindungsmolekül mit einer spezifischen Anbindungsstelle innerhalb der Kofibrillen eingelagert wird. Darüber hinaus scheint der ausgeübte morphogene Effekt des GAGs Heparins von Faktoren wie Grad der Sulfatierung, Ladung und Konzentration abzuhängen. Weitere detailierte Strukturanalysen der PSC - Heparin Gele mit TEM und SFM zeigten eine Hierarchie mit drei unterschiedlichen strukturellen Ebenen und Bandmustern im System: asymmetrisch segmentierte, weitabständige Fibrillen (SLS) und symmetrische Segmente mit einem AP von 250-260 nm, symmetrische fibrose weitabständige (FLS IV) Nanofibrillen mit einem AP von von 165 nm und Kofibrillen asymmetrischer D-Periodizität von 67 nm, die eine erstaunliche Ähnlichkeit zum natürlichen Kollagen Typ I Bandmuster haben. Die Einlagerung des sehr negativ geladenen Heparins in die Kofibrillen wurde als Hauptauslöser der hierarchischen Formation der polymorphen Strukturen betrachtet. Wir schlugen ebenso ein Model vor, welches sowohl das unerwartete Vorhandensein symmetrischer und asymmetrischer Formen im System als auch die Regeln erklärt, die das symmetrische oder asymmetrische Schicksal der Moleküle steuern. Der letzte Abschnitt der Experimente zeigte, dass die Anwesenheit der Telopeptide und Heparins eine signifikante Wirkung auf die strukturellen und mechanischen Charakteristika der in vitro rekonstituierten Kollagen Typ I Fibrillen hatte. Die durchgeführten Strukturanalysen zeigten außerdem, dass die Anwesenheit der Telopeptide in säurelöslichem Kollagen (ASC) die Rekonstitution D-periodischer Kollagenfibrillen mit Heparin verhinderte, sodass nur symmetrisch polymorphe Formen mit einer Wiederholeinheit von 165 nm möglich waren (FLS IV). Weitere Messungen der Telopeptid-freien und Telopeptid-intakten Kollagenfibrillen mit Röntgendiffraktometrie ergaben, dass die Abwesenheit der nicht-helix-strukturierten Enden in Pepsin-gelöstem Kollagen (PSC) zu einer weniger kompakten Anordnung der Tripelhelices von Atelokollagen führte. Der interhelix Abstand erhöhte sich von 1,0 zu 1,2 nm für getrocknete Proben. Das zeigt, dass die losere Anordnung der Tripelhelices einhergeht mit der Verringerung der Biege-Elastizitäts-module der Kollagenfibrillen,. Basierend auf den hier vorgestellten morphologischen, strukturellen und mechanischen Unterschieden zwischen ASC und PSC-Heparin Fibrillen wird die Idee unterstützt, dass Heparin als intrafibrillärer Vernetzer fungiert und an Bindungsstellen der Helix bindet, welche in vivo bei Kollagen Typ I Fibrillen durch Telopeptide besetzt sind. Die durchgeführten Studien sind von besonderem Interesse für das Verständnis und die Steuerung eines sehr vielseitigen und bereits verwendeten xenogenes Zellkultursystem für das Tissue Engineering. Von den rekonstituierten Kofibrillen mit ihrer ungewöhnlichen Morphologie und GAG Einlagerung - ein in vivo nicht bekanntes Phänomen - erwartet man, dass sie ein intressantes biochemisches Verhalten als Biomaterial für ECM Scaffolds zeigen. Variationen der experimentellen Bedingungen, des Ausmaßes der Telopeptidentfernung und der Heparinkonzentration liefern vielfältige Möglichkeiten um die Kinetik, Struktur, Dimension sowie die mechanischen Eigenschaften des Systems zu kontrollieren. Damit sollte es möglich sein, ein bestimmtes Zellverhalten gegenüber der neu entwickelten Matrix vorherzusagen. Die GAG-Einlagerung bietet interessante Optionen für eine langfristige Freisetzung des GAGs 'on demand', sowie die native Bindung und Stabilisierung von Wachstumsfaktoren, Cytokinen, Chemokinen, womit zusätzlich Zellsignalisierung und -schicksal und später Gewebemorphogenese kontrolliert werden kann.

info:eu-repo/classification/ddc/620

ddc:620