The release of histone proteins from cells via extracellular vesicles

Muthukrishnan, Uma

January 2018

Histones are chromatin-associated proteins localized to the nucleus. However, extracellular histones are present in biofluids from healthy individuals and become elevated under disease conditions, such as neurodegeneration and cancer. Hence, extracellular histones may have important biological functions in healthy and diseased states, which are not understood. Histones have been reported in the proteomes of extracellular vesicles (EVs), including microvesicles and exosomes. The main aim of this thesis was to determine whether or not extracellular histones are secreted via EVs/exosomes. In an initial study (Paper I), I optimized methods for human embryonic kidney (HEK293) cell culture, transfection and protein detection using western blotting. In the main study (Paper II), I used oligodendrocyte cell lines (rat OLN-93 and mouse Oli-neu) to investigate the localization of histones to EVs. Western blotting of EVs purified from OLN-93 cell-conditioned media confirmed the presence of linker and core histones in them. Immunolocalization and transmission electron microscopy confirmed that histones are localized to EVs, as well as intraluminal vesicles (ILVs) within multivesicular bodies (MVBs). This suggests that histones are secreted via the MVB/exosome pathway. Localization of histones in EVs was investigated by biochemical/proteolytic degradation and purification followed by western blotting. Surprisingly, histones were associated with the membrane but not the luminal fraction. Overexpression of tagged histones in HEK293 cells confirmed their conserved, membrane localization. OLN-93 cell EVs contained both double stranded and single stranded DNA but nuclease and protease digestion showed that the association of histones and DNA with EVs was not interdependent. The abundance of histones in EVs was not affected by differentiation in Oli-neu cells. However, histone release was upregulated as an early response to cellular stress in OLN-93 cells and occurred before the release of markers of stress including heat shock proteins. Interestingly, a notable upregulation in secretion of small diameter (50-100 nm) EVs was observed following heat stress, suggesting that a sub-population of vesicles may be involved specifically in histone secretion in response to stress. Proteomic analyses identified the downregulation of endosomal sorting complex required for transport (ESCRT) as a possible mechanism underlying increased histone secretion. In Paper III, I developed methods to quantify extracellular histone proteins in human ascites samples from ovarian cancer patients.   In summary, we show for the first time that membrane-associated histones are secreted via the MVB/exosome pathway. We demonstrate a novel pathway for extracellular histone release that may have a role in both health and disease.

Histone

extracellular vesicles

exosomes

extracellular histones extracellular DNA

cellular stress

proteomics

ESCRT complex

Lrrn1

mid-hindbrain organizer

ovarian cancer

ascites

Cell and Molecular Biology

Cell- och molekylärbiologi

Cell Biology

Cellbiologi

A solid-state NMR approach for probing collagen atomic structure in the extracellular matrix

Chow, Wing Ying

January 2014

No description available.

540

Studies of heparanase (HPA) gene expression, cellular localization andfunctions in neural tissues of the rat

Zhang, Yi, 張怡

January 2007

published_or_final_version / abstract / Biochemistry / Doctoral / Doctor of Philosophy

Heparin.

Extracellular enzymes.

Gene expression.

Nervous system - Regeneration.

Rats - Physiology.

Investigation of expression of extracellular matrix component genes during tendon healing process: an in vivochicken study

Cao, Yi, 曹怡

January 2009

published_or_final_version / Orthopaedics and Traumatology / Master / Master of Philosophy

Extracellular matrix.

Gene expression.

Collagen.

Tendons.

Chickens as laboratory animals.

Characterization on the biochemical composition of collagen-hMSCs microspheres and their mechanical property during chondrogenicdifferentiation

Li, Chun-hei., 李晉曦.

January 2009

published_or_final_version / Mechanical Engineering / Master / Master of Philosophy

Mesenchyme.

Stem cells.

Extracellular matrix.

Cell differentiation.

Chondrogenesis.

Resistance training as a modality to enhance muscle regeneration in a rat skeletal muscle defect

Taylor, Daniel Ryan

25 August 2010

Traumatic skeletal muscle injuries that include loss of large amounts of muscle mass are becoming more common in today’s warfare. Traditional treatments often do not prevent long term functional impairments. Using a decellularized extracellular matrix (ECM) as scaffolding to replace lost muscle tissue allows for transmission of force through the injury site, and provides a suitable microenvironment receptive to myofiber growth. Seeding the ECM with progenitor cells improves cellular content in the defect area. Exercise exposes the muscle to improved blood flow as well as higher than normal loading. This results in increased blood vessel density as well as higher levels of cellular content, and near complete restoration of function. / text

Muscle

Regeneration

Extracellular matrix

Stem cells

Exercise

Resistance training

Defect

CD4+ Lymphocyte Regulation of Vascular and Cardiac Extracellular Matrix Structure and Function

Horak, Katherine Eileen

January 2006

Cardiovascular disease, often induced by hypertension, represents a serious health threat, is a primary cause of death worldwide, and results in altered cardiovascular function and ECM composition. Hypertension and related cardiovascular diseases are associated with immune dysfunction. This dissertation investigated the role of T-lymphocytes in modulating cardiovascular function and ECM composition as a possible therapeutic for the treatment of cardiovascular disease. Study one investigated the role of TCR peptide in the development of hypertension and subsequent cardiovascular changes in Balb/C mice. The coadminstration of TCR and L-NAME/8% NaCl reduced the effects of L-NAME/8% NaCl, decreasing blood pressure and crosslinked collagen compared to L-NAME/8% NaCl alone. Study two examined the effects of T-lymphocyte function on cardiovascular structure and function. Adoptive transfer of T-lymphocytes from C57BL/6 WT mice into C57BL/6 SCID mice induced changes in the SCID so that it resembled the WT donor, with increased percent crosslinked collagen and LOX activity. Hemodynamics in the SCID recipient resembled that of the WT and were significantly different from the sham injected SCID. Study three combined aspects of both previous studies. T-lymphocytes were adoptively transferred from hypertensive WT donors into naïve SCID recipients, who developed hypertension and cardiovascular function resembling the hypertensive donor, as well as changes in the ECM, including increased collagen crosslinking. Study four investigated the effect of strain specific T-lymphocyte polarization on hypertension induced cardiac ECM remodeling. Balb/C, C57BL/6 WT, and C57BL/6 SCID had divergent responses to L-NAME induced hypertension. Ventricular stiffness increased in Balb/C, decreased in C57 SCID and did not change in C57 WT; LOX activity changed correspondingly in all groups. The final study examined the effect of TCR administration on LOX activity and collagen crosslinking. Th1 polarization increased LOX activity and crosslinked collagen with corresponding changes in cardiovascular function. In conclusion, modulation of T-lymphocyte function alters cardiovascular function and ECM composition in pathologic and non-pathologic conditions. Immune modulation should be further investigated as a therapeutic for cardiovascular disease.

cardiovascular

immunomodulation

T-lymphocyte

Extracellular Matrix

heart function

hypertension

Elucidating the Role if Integrin-extracellular Matrix Protein Interactions in Regulating Osteoclast Activity

Gramoun, Azza

15 September 2011

Millions of people around the world suffer from the debilitating effects of inflammatory bone diseases characterized by excessive bone loss due to an increase in osteoclast formation and activity. Osteoclasts are multinucleated cells responsible for bone resorption in health and disease. Arthritic joints also have elevated levels of extracellular matrix proteins affecting the disease progression. The interaction between osteoclasts and the external milieu comprised of extracellular matrix proteins through integrins is essential for modulating the formation and activity of osteoclasts. The focus of this thesis was to elucidate how the interaction between the extracellular matrix proteins and osteoclasts regulates osteoclast formation and activity and the role of alphavbeta3 in this process. In primary rabbit osteoclast cultures, blocking the integrin alphavbeta3 using Vitaxin, an anti-human alphavbeta3 antibody, decreased osteoclast resorption by decreasing osteoclast attachment. Vitaxin’s inhibitory effect on osteoclast attachment was enhanced when osteoclasts were pretreated with M-CSF, a growth factor known to induce an activated conformation of the integrin alphavbeta3. Using the RAW264.7 cell line, the effects of the matrix proteins fibronectin and vitronectin on osteoclast activity were compared to those of osteopontin. Both fibronectin and vitronectin decreased the number of osteoclasts formed compared to osteopontin. Fibronectin’s effect on osteoclastogenesis was through decreasing pre-osteoclast migration and/or fusion but not through inhibiting their recruitment. In contrast, fibronectin induced resorption through increasing resorptive activity per osteoclast in comparison to vitronectin and osteopontin. These stimulatory effects were accompanied by an increase in the pro-inflammatory cytokines nitric oxide and IL-1beta Crosstalk between the signalling pathways of nitric oxide and IL-1betawas suggested by the ability of the nitric oxide inhibitor to decrease the level of IL-1beta which occurred exclusively on fibronectin. Osteoclasts on fibronectin also had a compact morphology with the smallest planar area while vitronectin increased the percentage of osteoclast with migratory morphology and osteopontin induced osteoclast spreading. The increase in compact morphology on fibronectin was associated with a decrease in extracellular pH. Low extracellular pH was found to increase the total time osteoclasts spend in a compact phase. These results show that matrix proteins differentially regulate osteoclast formation, activity and morphology.

Osteoclast

Bone

Extracellular matrix proteins

0307

0379

0567

Investigation of the effect of structured hyaluronic acid surfaces on cell proliferation and expression of HA cellular receptors, CD44 and RHAMM

Marques, Ana Catia Ferrao

January 2011

Hyaluronic acid (HA) is one of the major components of the extracellular matrix; and may exhibit different biological functions, dependent on polymer molecular weight (MW). The signalling events performed by HA are mediated through interactions with its main cell receptors: CD44 and RHAMM. However, the direct effect between the HA MW and the expression of CD44 and RHAMM remains unclear. This study aimed to investigate whether different HA polymer MW alters the proliferation of tumour-derived cell lines, and whether different HA-sized has an effect on the regulation of the expression of CD44 and RHAMM. In order to determine size-specific responses of tumour cells of defined fragment MW, this investigation was undertaken using HA-tethered culture surfaces. Four surfaces were constructed, coated with polymers of different MWs. HA (4, 234, 2590 kDa) and an oligomer mixture were tethered onto an aminosilane (AHAPTMS)-treated glass surfaces using a carbodiimide reaction. Surfaces were analysed using a toolbox of in situ characterisation techniques, including wettability measurements, QCM, AFM and confocal microscopy. Using the constructed surfaces was demonstrated that HA-polymer MW modulates cell proliferation of human bladder (RT112 and T24) and prostate (PC3 and PNT1A) cell lines, with low HA MW (HA4) increasing proliferation, whereas a decrease is seen in the presence of medium (HA234) and high MW fragments (HA2590). The proliferation stimulus performed by HA was found to be phenotype dependent, with HA4 surfaces stimulating an increased proliferation in those less invasive cell lines (T24 and PNT1A), while HA234 and HA2590 inducing a sharper decrease in the most malignant tumour cell lines (RT112 and PC3). It was also demonstrated that the regulation of CD44 and RHAMM transcripts expression appears to be phenotype dependent but not HA-MW dependent. HA down-regulates CD44 and RHAMM in the most malignant cell lines; with up-regulation of the expression of the cell receptors in the less invasive cell lines. In addition, the presence of exogenous HA was shown to be involved in the regulation of the expression of CD44 variants expression. The results obtained for the CD44 and RHAMM protein expression were also found to be correlated with the obtained transcripts expression. However, the significance of these findings in tumourigenesis remains unclear. Findings from this investigation may help in the design and development of biocompatible implants with controlled surface properties to be used in cancer therapeutics; with medium and large HA polysaccharides being potential biopolymer candidates, useful for the development of novel therapies for highly invasive cancer. In addition, implications from this work can serve as a base for future research, and can lead to ideas for drugs and methods to be used in cancer therapeutic approaches.

616.994

Functional characterization of npcRNAs - Intercellular trafficking of generegulatory components via exosomes

Böker, Kai Oliver

15 December 2016

No description available.

570

Biologie (PPN619462639)