Collagen VII expression in glomerular sclerosis

Dystrophic Epidermolysis Bullosa - from biochemistry to interventions

The skin, as a barrier organ meeting constant mechanical challenges, is equipped with multiple adhesive structures that collectively support resilient, yet flexible attachment of its epithelium -the epidermis to its mesenchyme - the dermis. One such structure is the collagen VII-composed anchoring fibril, which provides firm anchorage of the epidermal basement membrane to the underlying interstitial extracellular matrix. Blistering and wider tissue fragility in the genetic disease dystrophic epidermolysis bullosa (DEB) caused by collagen VII deficiency illustrate the essential function of collagen VII in supporting skin integrity. DEB is also a progressive inflammatory fibrotic disease with multi-organ involvement, indicating that collagen VII has broader functions than simply providing epithelial anchorage. This review explores the reciprocal relationship between collagen VII biology and DEB pathophysiology. A deeper understanding of collagen VII biology - spanning its synthesis, assembly into suprastructures, and regulatory roles - enhances our understanding of DEB. Conversely, detailed insights into DEB through analysis of disease progression or therapeutic interventions offer valuable information on the broader tissue and organismal roles of collagen VII in maintaining homeostasis. This review focuses on such knowledge exchange in advancing our understanding of collagen VII, the extracellular matrix in general, and inspiring potential strategies for treatment of DEB. Importantly, in a broader sense, the discussed themes are applicable to other conditions driven by compromised extracellular matrix instruction and integrity, leading to progressive damage and inflammation.

Comparative proteomic analysis of glomerular proteins in primary and bucillamine-induced membranous nephropathy

BACKGROUND

Anti-phospholipase A2 receptor autoantibody (PLA2R Ab)-associated membranous nephropathy (MN) is the most common form of primary MN (pMN). On the other hand, bucillamine (BCL), an antirheumatic drug developed in Japan, was reported to cause a rare form of secondary MN (sMN). Between these MN forms, comparative proteomic analysis of glomerular proteins has not been performed.

METHODS

We used renal biopsy specimens from 6 patients with PLA2R Ab (+) pMN, 6 patients with PLA2R Ab (‒) pMN, 6 patients with BCL-induced sMN, and 5 control cases (time 0 transplant biopsies). Proteins were extracted from laser-microdissected glomeruli and analyzed using mass spectrometry. The quantification values of protein abundance in each MN group were compared with those in the control group.

RESULTS

More than 800 proteins with high confidence were identified. Principal component analysis revealed a different distribution between the pMN and sMN groups. For further analysis, 441 proteins matched with ≥ 3 peptides were selected. Among the pMN and sMN groups, we compared the profiles of several protein groups based on the structural and functional characteristics, such as immunoglobulins, complements, complement-regulating proteins, podocyte-associated proteins, glomerular basement membrane proteins, and several proteins that are known to be associated with kidney diseases, including MN. In all MN groups, increased levels of immunoglobulins (IgG, IgA, and IgM), complements (C3, C4, and C9), complement factor H-related protein 5, type XVIII collagen, calmodulin, polyubiquitin, and ubiquitin ligase were observed. For some proteins, such as type VII collagen and nestin, the fold-change values were significantly different between the pMN and sMN groups.

CONCLUSIONS

Between the pMN and BCL-induced sMN groups, we observed common and different alterations in protein levels such as known disease-associated proteins and potential disease marker proteins.

Tissue-specific parameters for the design of ECM-mimetic biomaterials

The extracellular matrix (ECM) is a complex network of biomolecules that mechanically and biochemically directs cell behavior and is crucial for maintaining tissue function and health. The heterogeneous organization and composition of the ECM varies within and between tissue types, directing mechanics, aiding in cell-cell communication, and facilitating tissue assembly and reassembly during development, injury and disease. As technologies like 3D printing rapidly advance, researchers are better able to recapitulate in vivo tissue properties in vitro; however, tissue-specific variations in ECM composition and organization are not given enough consideration. This is in part due to a lack of information regarding how the ECM of many tissues varies in both homeostatic and diseased states. To address this gap, we describe the components and organization of the ECM, and provide examples for different tissues at various states of disease. While many aspects of ECM biology remain unknown, our goal is to highlight the complexity of various tissues and inspire engineers to incorporate unique components of the native ECM into in vitro platform design and fabrication. Ultimately, we anticipate that the use of biomaterials that incorporate key tissue-specific ECM will lead to in vitro models that better emulate human pathologies. STATEMENT OF SIGNIFICANCE: Biomaterial development primarily emphasizes the engineering of new materials and therapies at the expense of identifying key parameters of the tissue that is being emulated. This can be partially attributed to the difficulty in defining the 3D composition, organization, and mechanics of the ECM within different tissues and how these material properties vary as a function of homeostasis and disease. In this review, we highlight a range of tissues throughout the body and describe how ECM content, cell diversity, and mechanical properties change in diseased tissues and influence cellular behavior. Accurately mimicking the tissue of interest in vitro by using ECM specific to the appropriate state of homeostasis or pathology in vivo will yield results more translatable to humans.

Bullous Systemic Lupus Erythematosus and Lupus Nephritis in a Young Girl

Bullous systemic lupus erythematosus (BSLE) is an autoimmune blistering disease occurring in patients with systemic lupus erythematosus (SLE). It is a rare disease, especially in children. A 14-year-old girl initially presented with fatigue, generalized vesiculobullous skin lesions, and ulcers over the hard palate and oral mucosa. Clinical investigations revealed hematuria and proteinuria, a high erythrocyte sedimentation rate and titer of antinuclear antibody, and anti-double-stranded DNA. Skin biopsy findings were suggestive of BSLE. A renal biopsy confirmed the features of class V lupus nephritis. Based on the clinical features and investigations, a diagnosis of BSLE with nephritis was made. She received methylprednisolone pulse therapy and hydroxychloroquine; however, it did not alleviate the vesiculobullous eruption, so treatment with dapsone started and resulted in the dramatic disappearance of the lesions. Interruption of dapsone due to hemolysis did not aggravate the bullous disease. During follow-up, she had multiple flare-ups of disease and nephritis without rebound of bullous lesions. BSLE is a rare presentation of SLE in children. Differentiating it from other skin bullous diseases and SLE with blister is important for the correct management. The unusual presentation of this disease may delay the diagnosis and therefore requires a high index of clinical suspicion.

Dilated cardiomyopathy in epidermolysis bullosa

Dilated cardiomyopathy (DC) is a rare but potentially fatal complication of epidermolysis bullosa. No clear cause for it has been identified, but iron overload, low carnitine, low selenium, concomitant viral illness, chronic anemia, and medications have been proposed as possible contributors to the development of DC in reported cases. Early detection allows for medical treatment that delays clinical progression and prolongs survival.

Bullous lesions as a manifestation of systemic lupus erythematosus in two Mexican teenagers

Rarely, systemic lupus erythematosus (SLE) presents with bullous lesions due to severe edema and hydropic degeneration of the basal layer, or as a subepidermal blistering disease. Here, we describe two Mexican teenagers, one with SLE with blisters and another with bullous SLE. We also discuss the mechanisms and clinical implications of lesion formation in patients with SLE and bullae.

Dilated cardiomyopathy in epidermolysis bullosa: a retrospective, multicenter study

Dilated cardiomyopathy (DC) has been reported in severe epidermolysis bullosa (EB) subtypes. Poor nutritional status, low carnitine levels, selenium deficiency, chronic iron overload, drugs and viral etiology have been proposed as potential contributors. This was a retrospective, descriptive, multicenter study describing EB patients that developed DC, and determining potential pre-disposing risk factors. Fifteen patients were enrolled in the study; 11 of them were male subjects (73%). Eighty-seven per cent of the participants had dystrophic EB and 13% had junctional EB. Mean age at diagnosis of DC was 12.18 +/- 4.99 years. Chronic anemia was diagnosed in 13 of 15 patients (86.7%). Sixty per cent of patients had prior red blood cell transfusions. At diagnosis, selenium levels were low in 55% of the patients (n = 11) and total carnitine levels were low in 45% of the patients (n = 11). Systolic function was moderately impaired, with a mean shortening fraction of 19.38% (SD = 5.04, n = 8). After a mean follow-up period of 6.3 +/- 4.8 years, six patients were alive without being on any medications (40.0%), two were alive on medications (13.3%) and seven had died (46.7%). Limitations of the study was that it was a retrospective chart review with relatively small sample size. Retrospective chart review, relatively small sample size. This study substantiates the association between DC and EB. Currently, there is no single risk factor identified in EB patients that leads to DC. Further prospective studies are needed.

The pathobiology of polyomavirus infection in man

This article traces the discovery of polyomaviruses and outlines investigations, which shed light on potential modes of transmission of this increasingly important group of human pathogens. The pathobiology of the virus is summarized with particular reference to interactions with host cell receptors, cell entry, cytoplasmic trafficking, and targeting of the viral genome to the nucleus. This is followed by a discussion of sites of viral latency and factors leading to viral reactivation. Finally, we present biochemical mechanisms that could potentially explain several key elements of tissue pathology characteristic of BKV mediated damage to human kidney.