Background

It has been postulated that NPH equals pressure- and distortion-induced ischemia. Such a postulate fails to take into consideration the high co-incidence of AD and cerebrovascular disease (CVD) with NPH; as well as the observation that ischemia persists despite resolution of the elevated CSFP and ventriculomegaly [1,2]. We offer an alternate postulate, that NPH is a multi-factorial disease and that defective metabolite clearance, e.g., amyloid-beta peptides (Aβ) and Tau protein, via the CSF and across the blood-brain barrier (BBB), play a significant role in the dementia and ischemia of NPH. Materials and methods Aged Sprague-Dawley rats (12 mos) had hydrocephalus induced by intracisternal kaolin injection [3]. Brains were harvested at two, six and 10 weeks post-induction, n = 4

Vaccine efficacy against primary and metastatic cancer with in vitro-generated CD103+ conventional dendritic cells

BackgroundType 1 conventional dendritic cells (cDC1s) possess efficient antigen presentation and cross-presentation activity, as well as potent T cell priming ability. Tissue-resident cDC1s (CD103+ cDC1s in mice, CD141+ cDC1s in humans) are linked with improved tumor control, yet the efficacy of immunotherapy using this population is understudied.MethodsWe generated murine CD103+ cDC1s in vitro and examined their expression of cDC1-related factors, antigen cross-presentation activity, and accumulation in tumor-draining lymph nodes (TdLNs). The antitumor efficacy of the in vitro-generated CD103+ cDC1s was studied in murine melanoma and osteosarcoma models. We evaluated tumor responses on vaccination with CD103+ cDC1s, compared these to vaccination with monocyte-derived DCs (MoDCs), tested CD103+ cDC1 vaccination with checkpoint blockade, and examined the antimetastatic activity of CD103+ cDC1s.ResultsIn vitro-generated CD103+ cDC1s produced cDC1-associated factors such as interleukin-12p70 and CXCL10, and demonstrated antigen cross-presentation activity on stimulation with the toll-like receptor 3 agonist polyinosinic:polycytidylic acid (poly I:C). In vitro-generated CD103+ cDC1s also migrated to TdLNs following poly I:C treatment and intratumoral delivery. Vaccination with poly I:C-activated and tumor antigen-loaded CD103+ cDC1s enhanced tumor infiltration of tumor antigen-specific and interferon-γ+ CD8+ T cells, and suppressed melanoma and osteosarcoma growth. CD103+ cDC1s showed superior antitumor efficacy compared with MoDC vaccination, and led to complete regression of 100% of osteosarcoma tumors in combination with CTLA-4 antibody-mediated checkpoint blockade. In vitro-generated CD103+ cDC1s effectively protected mice from pulmonary melanoma and osteosarcoma metastases.ConclusionsOur data indicate an in vitro-generated CD103+ cDC1 vaccine elicits systemic and long-lasting tumor-specific T cell-mediated cytotoxicity, which restrains primary and metastatic tumor growth. The CD103+ cDC1 vaccine was superior to MoDCs and enhanced response to immune checkpoint blockade. These results indicate the potential for new immunotherapies based on use of cDC1s alone or in combination with checkpoint blockade

Clinical study of ferredoxin-reductase-related mitochondriopathy: Genotype-phenotype correlation and proposal of ancestry-based carrier screening in the Mexican population

Purpose: Ferredoxin reductase (FDXR) is a flavoprotein that functions in both iron sulfur cluster biogenesis and steroid biosynthesis pathways in the mitochondria. Not surprisingly, loss of FDXR function causes severe mitochondrial diseases in humans. Although several FDXR-related mitochondriopathy (FRM) cohorts have been reported in the literature, further characterization of the natural history of FRM is warranted. Methods: To better understand the spectrum of FRM, a natural history study of FRM was performed. New cases were added to previously reported FRM cases for analysis (n = 62 cases). Results: Optic atrophy, movement disorder, and developmental delay were frequent findings. Mortality is high, with 18% of patients, often infants, passing from complications. Notably, 25% of cases were homozygous or compound heterozygous for the previously reported p.Arg386Trp “hotspot” variant. Of the obtained ancestry, all but 1 individual heterozygous for the p.Arg386Trp variant was Hispanic, with many reporting Mexican heritage. Utilizing recent large-scale genome sequencing surveys, the carrier frequency of the p.Arg386Trp variant was estimated as 1 of 185 in the Mexican population. Conclusion: Given the high mortality of FRM and carrier frequency of the common variant, consideration of a new approach for population carrier screening and development of therapeutics for affected individuals is needed