Spectrum of renal vascular lesions among patients with lupus nephritis: An experience from a tertiary care center.

Background: Lupus nephritis (LN) is the assemblage of glomerular, tubulointerstitial and vascular changes. Despite the fact that glomerular changes are overemphasized in pathological classification and scoring system, but the existence of vascular damage negatively impact the clinical course. Aims and Objective: This study was conducted to determine the clinicopathological spectrum of renal vascular lesions in lupus nephritis. Materials and Methods: Renal microvascular lesions in biopsy proven lupus nephritis were classified into 5 major categories-thrombotic microangiopathy, true vasculitis; lupus vasculopathy, uncomplicated vascular immune deposits, and arterial. Clinical details, laboratory parameters and histopathological variables were compared among all groups. Summary of chronic changes was also assessed. Results: Biopsies from 56 patients revealed thrombotic microangiopathy (2), lupus vasculopathy (3), uncomplicated vascular immune deposit (6), PAN type vasculitis (1) and arterial sclerosis (13). No renal vascular lesions were found in 35.18% of patients. At the time of biopsy, arterial sclerosis or lupus vasculopathy patients were older Nephritis subtype. Activity indices were higher in lupus vasculopathy group whereas patients with arteriosclerosis showed highest chronicity index. Conclusions: Renal vascular lesions are common in systemic lupus erythematosus patients with nephritis and may be associated with aggressive clinical course.

Cutaneous Vesiculobullous Lesions: A Clinicopathologic Study.

Vesiculobullous disorders could be either immunobullous or non-immunobullous. The spectrum was analyzed using histopathology, direct immunofluorescence (DIF), and salt-split technique. Among the 104 patients analyzed, 77 (74%) were immunobullous and 25 (24%) were having non-immunobullous diseases. Bullous pemphigoid (20.2%) is the commonest among immunobullous lesions, and epidermolysis bullosa (11.5%) was the most frequent non-immunobullous lesion. Involvement of the hair and nail and a positive family history were common relationships for non-immunobullous disorders. Immunobullous lesions showed DIF positivity whereas non-immunobullous lesions were DIF negative. Perilesional DIF was more sensitive and specific than lesional DIF. The commonest antibody was immunoglobulin G (IgG) (78.9%) followed by complement 3c (C3c) (38.1%), immunoglobulin A (IgA) (25%), and immunoglobulin M (IgM) (6.6%). No lesion should be considered non-immunobullous unless both lesional and perilesional DIF results were negative.

Clinicopathological Spectrum of Henoch-Schönlein Purpura Vasculitis: An Experience from a Tertiary Care Center.

Henoch-Schönlein purpura (HSP) is a small vessel vasculitis with multiorgan involvement. Renal involvement is the key factor predicting morbidity. We have aimed to analyze the clinicopathological spectrum of HSP vasculitis and HSP nephritis to assess the risk factors associated with kidney involvement. This retrospective study was performed in the department of pathology with collaboration of department of dermatology and department of nephrology of a tertiary care center. All clinical details along with biopsy findings were retrieved. Starting materials of the study were cases of leukocytoclastic vasculitis with only perivascular IgA deposit of more than ++ in the absence of other immunoglobulin and trace complements. To investigate the possible factors that are influential on the development of biopsy-proven HSP nephritis, we divided the whole study population in two groups -group 1: with and group 2: without biopsy-proven nephritis. One-way analysis of variance was carried out during comparative analysis between two groups using IBM SPSS statistics software, version 19 and MedCalc software, version 12.3.0.0. HSP vasculitis comprised 11.6% (n = 19) of total cutaneous vasculitis in 2 years (164 cases) with a mean age of 13.52 ± 8.10 (range: 4-33 years). Three cases developed de novo kidney disease (15.79%). A correlation analysis revealed that predictors were seasonal variation (P = 0.018), severe gastrointestinal involvement (P = 0.03), and subcutaneous edema (P = 0.005). Various clinical and laboratory parameters were associated with renal consequences. Occult nephritis was the most common presentation with crescent as a constant histopathological feature.

Mis-sesnse mutations in Tafazzin (TAZ) that escort to mild clinical symptoms of Barth syndrome is owed to the minimal inhibitory effect of the mutations on the enzyme function: In-silico evidence.

Tafazzin (EC 2.3.1.23) is a Phospholipid Transacylase involved in Cardiolipin remodeling on mitochondrial membrane and coded by TAZ gene (Cytogenetic Location: Xq28) in human. Its mutations cause Barth syndrome (MIM ID: #302060)/3-Methyl Glutaconyl Aciduria Type II, an inborn error of metabolism often leading to foetal or infantile fatality. Nevertheless, some mis-sense mutations result in mild clinical symptoms. To evaluate the rationale of mild symptoms and for an insight of Tafazzin active site, sequence based and structure based ramifications of wild and mutant Tafazzins were compared in-silico. Sequence based domain predictions, surface accessibilities on substitution & conserved catalytic sites with statistical drifts, as well as thermal stability changes for the mutations and the interaction analysis of Tafazzin were performed. Crystal structure of Tafazzin is not yet resolved experimentally, therefore 3D coordinates of Tafazzin and its mutants were spawned through homology modeling. Energetically minimized and structurally validated models were used for comparative docking simulations. We analyzed active site geometry of the models in addition to calculating overall substrate binding efficiencies for each of the enzyme-ligand complex deduced from binding energies instead of comparing only the docking scores. Also, individual binding energies of catalytic residues on conserved HX4D motif of Acyltransferase superfamily present in Tafazzins were estimated. This work elucidates the basis of mild symptoms in patients with mis-sense mutations, identifies the most pathogenic mutant among others in the study and also divulges the critical role of HX4D domain towards successful transacylation by Taffazin. The in-silico observations are in complete agreement with clinical findings reported for the patients with mutations.

Structural basis for heterogeneous phenotype of ERG11 dependent Azole resistance in C.albicans clinical isolates.

Correlating antifungal Azole drug resistance and mis-sense mutations of ERG11 has been paradoxical in pathogenic yeast Candida albicans. Amino acid substitutions (single or multiple) are frequent on ERG11, a membrane bound enzyme of Ergosterol biosynthesis pathway. Presence or absence of mutations can not sufficiently predict susceptibility. To analyze role of mis-sense mutations on Azole resistance energetically optimized, structurally validated homology model of wild C.albicans ERG11 using eukaryotic template was generated. A Composite Search Approach is proposed to identify vital residues for interaction at 3D active site. Structural analysis of catalytic groove, dynamics of substrate access channels and proximity of Heme prosthetic group characterized ERG11 active site. Several mis-sense mutations of ERG11 reported in C.albicans clinical isolates were selected through a stringent criterion and modeled. ERG11 mutants subsequently subjected to a four tier comparative biophysical analysis. This study indicates (i) critical interactions occur with residues at anterior part of 3D catalytic groove and substitution of these vital residues alters local geometry causing considerable change in catalytic pocket dimension. (ii) Substitutions of vital residues lead to confirmed resistance in clinical isolates that may be resultant to changed geometry of catalytic pocket. (iii)These substitutions also impart significant energetic changes on C.albicans ERG11 and (iv) include detectable dynamic fluctuations on the mutants. (v)Mis-sense mutations on the vital residues of the active site and at the vicinity of Heme prosthetic group are less frequent compared to rest of the enzyme. This large scale mutational study can aid to characterize the mutants in clinical isolates.