Michael W. Jackson

Vascular Endothelial Growth Factor (VEGF) Expression in Prostate Cancer and Benign Prostatic Hyperplasia

PURPOSE Vascular endothelial growth factor (VEGF) is a potent inducer of endothelial cell growth and is expressed at elevated levels in several tumor types. In this study immunohistochemical localization and distribution of isoforms of VEGF were examined in malignant and non-malignant human prostatic tissues. MATERIALS AND METHODS Immunohistochemical localization of VEGF was performed on thirty well, moderately and poorly differentiated stage D2 prostate cancer specimens and twenty benign prostatic hyperplasia (BPH) specimens. VEGF mRNA was determined by polymerase chain reaction and VEGF protein isoforms were detected by Western blotting of prostate cancer and BPH specimens. RESULTS Cytoplasmic immunoreactivity for VEGF was detected in tumor cells and peritumoral stromal cells of prostate cancer specimens and in non-malignant glandular epithelial cells and interglandular stromal cells in BPH specimens. Staining was focal with areas of strongly to weakly stained cells adjacent to negatively staining areas. mRNAs for VEGF121, VEGF165 and VEGF189 were present in all benign and malignant prostate specimens. VEGF protein isoforms of molecular sizes corresponding to VEGF165 and VEGF189 were detected in cytosolic extracts of prostate cancers and BPH specimens by Western blotting. In addition, two novel higher molecular weight immunoreactive bands were detected in the prostate specimens. CONCLUSIONS Widespread distribution of VEGF in prostate cancers and BPH specimens suggest that the VEGF165, VEGF189 isoforms and novel 90 and 110 kD forms detected may contribute to the establishment or progression of these conditions.

A functional autoantibody in narcolepsy

Narcolepsy is widely believed to have an autoimmune basis, but conventional immunological approaches have failed to detect a serum autoantibody marker. Since cholinergic hyperactivity is a feature of narcolepsy-cataplexy, we transferred IgG from nine patients with narcolepsy and nine healthy controls to mice and assessed the effect on smooth muscle contractile responses to cholinergic stimulation. IgG from all narcolepsy patients significantly enhanced bladder contractile responses to the muscarinic agonist carbachol and to neuronally released acetylcholine compared with control IgG (p<0.0001), whereas contraction of the sympathetically innervated vas deferens was unaltered. Our findings provide direct evidence for the autoimmune hypothesis of narcolepsy.

Different temporal expression of immunodominant Ro60/60 kDa-SSA and La/SSB apotopes

Opsonization of apoptotic cardiocytes by maternal anti‐Ro/SSA and anti‐La/SSB antibodies contributes to tissue injury in the neonatal lupus syndrome. The objective of the current study was to quantify the surface membrane expression of Ro/La components during different phases of apoptosis and map the Ro/La apotopes (epitopes expressed on apoptotic cells) bound by cognate antibodies. Multi‐parameter flow cytometry was used to define early and late apoptotic populations and their respective binding by monospecific anti‐Ro and anti‐La IgGs. Anti‐Ro60 bound specifically to early apoptotic Jurkat cells and remained accessible on the cell surface throughout early and late apoptosis. In contrast, anti‐La bound exclusively to late apoptotic cells in experiments controlled for non‐specific membrane leakage of IgG. Ro52 was not accessible for antibody binding on either apoptotic population. The immunodominant NH2‐terminal and RNA recognition motif (RRM) epitopes of La were expressed as apotopes on late apoptotic cells, confirming recent in vivo findings. An immunodominant internal epitope of Ro60 that contains the RRM, and is recognized by a majority of sera from mothers of children with congenital heart block (CHB) and patients with primary Sjögrens syndrome, was also accessible as an apotope on early apoptotic cells. The distinct temporal expression of the immunodominant Ro60 and La apotopes indicates that these intracellular autoantigens translocate independently to the cell surface, and supports a model in which maternal antibody populations against both Ro60 and La apotopes act in an additive fashion to increase the risk of tissue damage in CHB.

Ro 60 functions as a receptor for β2-glycoprotein I on apoptotic cells

OBJECTIVE The autoantigens 60-kd Ro/SSA (Ro 60) and beta(2)-glycoprotein I (beta(2)GPI) are both displayed on the surface membrane of apoptotic cells. Epitope-spreading experiments have suggested that these autoantigens may be present as a complex on the apoptotic cell surface. This study was undertaken to investigate whether beta(2)GPI interacts with Ro 60 on apoptotic cells and alters the binding of anti-Ro 60 IgG. METHODS The interaction between soluble recombinant Ro 60 fragments and beta(2)GPI was investigated in vitro by direct and saturation binding assays using native human beta(2)GPI and recombinant domain deletion mutants. Binding of beta(2)GPI to early and late apoptotic cells was assessed by multiparameter flow cytometry, and specificity of binding was determined by competitive inhibition with soluble recombinant Ro 60 and anti-Ro 60 IgG. RESULTS The Ro 60 fragment expressing a surface-exposed epitope (apotope) bound with high affinity (K(d) = approximately 15 nM) to domain V of beta(2)GPI in vitro. Beta(2)-glycoprotein I bound to the surface of apoptotic cells in a dose-dependent manner and was blocked by the Ro 60 apotope fragment. In reciprocal competitive inhibition studies, beta(2)GPI blocked the binding of anti-Ro 60 autoantibodies to apoptotic cells in a dose-dependent manner, and anti-Ro 60 IgG inhibited the binding of beta(2)GPI. Moreover, beta(2)GPI showed a 2-fold increase in binding to apoptotic cells that overexpress Ro 60 on the surface. CONCLUSION These results demonstrate that Ro 60 functions as a novel receptor for beta(2)GPI on the surface of apoptotic cells. The formation of Ro 60-beta(2)GPI complexes may protect against anti-Ro 60 autoantibody-mediated tissue injury.

Elevated levels of HER‐2/neu and androgen receptor in clinically localized prostate cancer identifies metastatic potential

In this study, we investigated the expression of HER‐2/neu and AR in clinically organ‐confined prostate cancer to determine whether alterations in these signaling pathways contribute to the development of metastatic disease.

A B cell apotope of Ro 60 in systemic lupus erythematosus

OBJECTIVE Previous studies have attempted to segregate anti-60-kd Ro/SSA (anti-Ro 60) responses in systemic lupus erythematosus (SLE) and primary Sjögrens syndrome (SS) but have shown limited disease preference. The aim of the present study was to determine whether the presence of autoantibodies against an Ro 60 apotope (an epitope expressed on apoptotic cells) distinguishes anti-Ro 60 responses in SLE and primary SS. METHODS Multiparameter flow cytometry was used to select early apoptotic cells and measure the simultaneous binding of annexin V, propidium iodide, and anti-Ro 60-positive IgG from SLE patients (n=21) and patients with primary SS (n=19). The specificity of the Ro 60 apotope was determined by inhibition experiments with recombinant and native Ro 60. RESULTS Autoantibodies against the Ro 60 apotope were prevalent in SLE patients (13 of 21, 62%) and were rarely observed in patients with primary SS (1 of 19, 5%) (P=0.0002). Further, within SLE patients, autoantibodies to the Ro 60 apotope strongly distinguished patients with anti-Ro 60 alone (12 of 13, 92%) from those with both anti-Ro 60 and anti-La (1 of 8, 13%) (P=0.0005). When we considered all patients with anti-Ro 60 alone, the presence of autoantibodies to the Ro 60 apotope had both high sensitivity (92.3%) and high specificity (85.7%) for SLE compared with primary SS (P=0.0012). The presence of autoantibodies to the Ro 60 apotope may therefore be of diagnostic value in patients with isolated anti-Ro 60 responses. CONCLUSION The preferential targeting of an Ro 60 apotope exposed on early apoptotic cells in a subset of SLE patients implies disease-specific pathways for the induction of anti-Ro 60 autoimmunity.

Antibodies interfering with the type 3 muscarinic receptor pathway inhibit gastrointestinal motility and cholinergic neurotransmission in Sjögren's syndrome.

OBJECTIVE In primary Sjögrens syndrome (SS), impairment of the gastrointestinal (GI) tract is common, and includes reduced esophageal motor function, delayed gastric emptying, and abnormalities in colonic motility; the pathogenesis is as yet unknown. We undertook this study to investigate the role of functional antibodies to the type 3 muscarinic receptor (M3R) in GI dysfunction associated with primary SS. METHODS Muscle strip and whole-organ functional assays were used to determine whether IgG with anti-M3R activity from patients with primary SS disrupted neurotransmission in tissue from throughout the mouse GI tract. Specificity of the autoantibody for the M3R was determined using knockout mice that were deficient in the expression of muscarinic receptor subtypes. RESULTS Functional antibodies to the M3R inhibited neuronally mediated contraction of smooth muscle from throughout the GI tract and disrupted complex contractile motility patterns in the colon. The autoantibodies were not active on tissue from mice that lacked the M3R, providing compelling evidence of the direct interaction of patient autoantibodies with the M3R. CONCLUSION Our results indicate that anti-M3R autoantibodies have the potential to mediate multiple dysfunctions of the GI tract in primary SS, ranging from reduced esophageal motor activity to altered colonic motility. We hypothesize that altered GI motility forms part of a broader autonomic dysfunction mediated by pathogenic anti-M3R autoantibodies in primary SS.

Pathogenicity and proteomic signatures of autoantibodies to Ro and La.

Ro/SSA and La/SSB comprise a linked set of autoantigens that are clinically important members of the extractable nuclear antigen family and key translational biomarkers for lupus and primary Sjögrens syndrome. Autoantibodies directed against the Ro60 and La polypeptide components of the Ro/La ribonucleoprotein complex, and the structurally unrelated Ro52 protein, mediate tissue damage in the neonatal lupus syndrome, a model of passively acquired autoimmunity in humans in which the most serious manifestation is congenital heart block (CHB). Recent studies have concentrated on two distinct pathogenic mechanisms by which maternal anti‐Ro/La autoantibodies can cause CHB: by forming immune complexes with apoptotic cells in developing fetal heart; and/or by acting as functional autoantibodies that cross‐react with and inhibit calcium channels. Although the precise role of the individual autoantibodies is yet to be settled, maternal anti‐Ro60 and anti‐Ro52 remain the most likely culprits. This article will discuss the molecular pathways that culminate in the development of CHB, including the recent discovery of β2 glycoprotein I as a protective factor, and present a proteomic approach based on direct mass spectrometric sequencing, which may give a more representative snapshot of the idiotype repertoire of these autoantibodies than genomic‐based technologies.

An Autoantibody in Narcolepsy Disrupts Colonic Migrating Motor Complexes

Despite strong circumstantial evidence for the autoimmune hypothesis of narcolepsy, conventional immunological methods have failed to detect an autoantibody. This study investigated the real-time effects of narcoleptic immunoglobulins on a spontaneous colonic migrating motor complex (CMMC) preparation. IgG from patients with narcolepsy with cataplexy or healthy controls was added directly to isolated mouse colons undergoing CMMC activity to test for autoantibodies that disrupt colonic motility. The effect of immunoglobulins prepared for clinical intravenous treatment (IVIg) on autoantibody-mediated colonic disruption was also assessed. Narcoleptic IgGs markedly reduced the frequency of CMMCs or irreversibly abolished them. Abrogation of CMMCs was followed by an increase in the resting tension of the colon preparation and appearance of atropine-sensitive phasic smooth muscle contractions. IVIg partially neutralized the inhibitory effect of narcoleptic IgG on the CMMCs. The dramatic effect of narcoleptic IgG on CMMC generation is consistent with an autoantibody-mediated disruption of enteric neural pathways. The ex vivo whole-organ approach allows real-time examination of the physiological effects of the narcoleptic autoantibody and offers a new avenue for exploring the autoimmune basis of narcolepsy. The neutralizing effect of IVIg on the autoantibody provides a rationale for the reported clinical improvement in cataplexy when IVIg are given at disease onset.

Autoantibody‐mediated Bladder Dysfunction in Type 1 Diabetes

Bladder dysfunction is a common complication of diabetic autonomic neuropathy; however, its cause remains uncertain. We have recently identified a novel IgG autoantibody (Ab) in patients with type 1 diabetes that acts as an agonist at the dihydropyridine (DHP) site of L‐type voltage‐gated calcium channels (VGCC), disrupting neuronal regulation of visceral smooth muscle. In the present study, passive transfer to mice of IgG from patients with type 1 diabetes was used to investigate the role of anti‐VGCC Abs in mediating diabetic bladder dysfunction. Injection of mice with diabetic immunoglobulin (IgG) with anti‐VGCC activity induced features of an overactive bladder, including phasic detrusor contractions and a loss of bladder wall compliance. The bladder overactivity is mimicked by the DHP agonist Bay K8644, reversed by the DHP antagonist nicardipine, but is insensitive to the motor nerve blocker tetrodotoxin, indicating that the anti‐VGCC Ab acts at the level of the bladder detrusor itself. This study reports the first evidence of Ab‐mediated bladder dysfunction in type 1 diabetes, which may be part of a wider spectrum of smooth muscle and cardiac abnormalities.