Probing the Role of Protein Surface Charge in the Activation of PrfA, the Central Regulator of Listeria monocytogenes Pathogenesis

Listeria monocytogenes is a food-borne intracellular bacterial pathogen capable of causing serious human disease. L. monocytogenes survival within mammalian cells depends upon the synthesis of a number of secreted virulence factors whose expression is regulated by the transcriptional activator PrfA. PrfA becomes activated following bacterial entry into host cells where it induces the expression of gene products required for bacterial spread to adjacent cells. Activation of PrfA appears to occur via the binding of a small molecule cofactor whose identity remains unknown. Electrostatic modeling of the predicted PrfA cofactor binding pocket revealed a highly positively charged region with two lysine residues, K64 and K122, located at the edge of the pocket and another (K130) located deep within the interior. Mutational analysis of these residues indicated that K64 and K122 contribute to intracellular activation of PrfA, whereas a K130 substitution abolished protein activity. The requirement of K64 and K122 for intracellular PrfA activation could be bypassed via the introduction of the prfA G145S mutation that constitutively activates PrfA in the absence of cofactor binding. Our data indicate that the positive charge of the PrfA binding pocket contributes to intracellular activation of PrfA, presumably by facilitating binding of an anionic cofactor

Role of thin-filament regulatory proteins in relaxation of colonic smooth muscle contraction

Coordinated regulation of smooth muscle contraction and relaxation is required for colonic motility. Contraction is associated with phosphorylation of myosin light chain (MLC20) and interaction of actin with myosin. Thin-filament regulation of actomyosin interaction is modulated by two actin-binding regulatory proteins: tropomyosin (TM) and caldesmon (CaD). TM and CaD are known to play crucial role in actomyosin interaction promoting contraction. Contraction is associated with phosphorylation of the small heat shock protein HSP27, concomitant with the phosphorylation of TM and CaD. Phosphorylation of HSP27 is attributed as being the prime modulator of thin-filament regulation of contraction. Preincubation of colonic smooth muscle cells (CSMC) with the relaxant neurotransmitter vasoactive intestinal peptide (VIP) showed inhibition in phosphorylation of HSP27 (ser78). Attenuation of HSP27 phosphorylation can result in modulation of thin-filament-mediated regulation of contraction leading to relaxation; thus the role of thin-filament regulatory proteins in a relaxation milieu was investigated. Preincubation of CSMC with VIP exhibited a decrease in phosphorylation of TM and CaD. Furthermore, CSMC preincubated with VIP showed a reduced association of TM with HSP27 and with phospho-HSP27 (ser78) whereas there was reduced dissociation of TM from CaD and from phospho-CaD. We thus propose that, in addition to alteration in phosphorylation of MLC20, relaxation is associated with alterations in thin-filament-mediated regulation that results in termination of contraction

Phosphorylated HSP20 modulates the association of thin-filament binding proteins: caldesmon with tropomyosin in colonic smooth muscle

Small heat shock proteins HSP27 and HSP20 have been implicated in regulation of contraction and relaxation in smooth muscle. Activation of PKC-α promotes contraction by phosphorylation of HSP27 whereas activation of PKA promotes relaxation by phosphorylation of HSP20 in colonic smooth muscle cells (CSMC). We propose that the balance between the phosphorylation states of HSP27 and HSP20 represents a molecular signaling switch for contraction and relaxation. This molecular signaling switch acts downstream on a molecular mechanical switch [tropomyosin (TM)] regulating thin-filament dynamics. We have examined the role of phosphorylation state(s) of HSP20 on HSP27-mediated thin-filament regulation in CSMC. CSMC were transfected with different HSP20 phosphomutants. These transfections had no effect on the integrity of actin cytoskeleton. Cells transfected with 16D-HSP20 (phosphomimic) exhibited inhibition of acetylcholine (ACh)-induced contraction whereas cells transfected with 16A-HSP20 (nonphosphorylatable) had no effect on ACh-induced contraction. CSMC transfected with 16D-HSP20 cDNA showed significant decreases in 1) phosphorylation of HSP27 (ser78); 2) phosphorylation of PKC-α (ser657); 3) phosphorylation of TM and CaD (ser789); 4) ACh-induced phosphorylation of myosin light chain; 5) ACh-induced association of TM with HSP27; and 6) ACh-induced dissociation of TM from caldesmon (CaD). We thus propose the crucial physiological relevance of molecular signaling switch (phosphorylation state of HSP27 and HSP20), which dictates 1) the phosphorylation states of TM and CaD and 2) their dissociations from each other

Perda auditiva sensorioneural no lúpus eritematoso sistêmico: relato de três casos Sensorineural hearing loss in systemic lupus erythematosus: report of three cases

INTRODUÇÃO: O Lúpus Eritematoso Sistêmico (LES) é uma doença sistêmica do tecido conectivo, de etiologia desconhecida, provavelmente multifatorial. Acomete principalmente o sexo feminino podendo afetar múltiplos órgãos, dentre eles o sistema auditivo. A orelha interna pode ser lesada por diversos mecanismos auto-imunes, sendo a manifestação mais freqüente a disacusia sensorioneural flutuante, geralmente bilateral, rapidamente progressiva e com boa responsividade a imunossupressores. OBJETIVO: O objetivo deste trabalho é relatar três casos de disacusia de etiologia auto-imune, enfocando formas de acometimento e manifestações clínicas, bem como correlacionando o efeito ototóxico da cloroquina - droga empregada no controle do LES - com a perda auditiva. CONCLUSÃO: As perdas auditivas sensorioneurais súbitas, rapidamente progressivas ou flutuantes, podem ocorrer em pacientes com doença auto-imune e devem ser sempre lembradas nos casos de disacusia sem causa aparente.<br>INTRODUCTION: The Systemic Lupus Erythematosus (SLE) is a systemic disease of the connective tissue, with unknown etiology, probably associated to multiple events. It is a multiple organs disease that affects mainly women. The inner ear can be damaged by several immunopathogenic mechanisms, and the most common symptom is a progressive sensorineural hearing loss, generally bilateral, with good response to immunossupression. AIM: The purpose of this article is to report three cases of women suffering from SLE and hearing loss and to establish a link between the autoimmune and the vascular mechanisms of the disease, also focusing attention on the ototoxicity due to chloroquine applied during the treatment of SLE. CONCLUSION: Sudden or fluctuant sensorineural hearing loss may affect patients with autoimmune disease, so it must always be taken into account when dealing with patients suffering from hearing loss without any apparent cause