139 research outputs found
Myeloid conditioning with c-kit-targeted CAR-T cells enables donor stem cell engraftment
We report a novel approach to bone marrow (BM) conditioning using c-kit-targeted chimeric antigen receptor T (c-kit CAR-T) cells in mice. Previous reports using anti-c-kit or anti-CD45 antibody linked to a toxin such as saporin have been promising. We developed a distinctly different approach using c-kit CAR-T cells. Initial studies demonstrated in vitro killing of hematopoietic stem cells by c-kit CAR-T cells but poor expansion in vivo and poor migration of CAR-T cells into BM. Pre-treatment of recipient mice with low-dose cyclophosphamide (125 mg/kg) together with CXCR4 transduction in the CAR-T cells enhanced trafficking to and expansion in BM (\u3c1%-13.1%). This resulted in significant depletion of the BM c-ki
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Pyocyanin-Enhanced Neutrophil Extracellular Trap Formation Requires the NADPH Oxidase
Beyond intracellular killing, a novel neutrophil-based antimicrobial mechanism has been recently discovered: entrapment and killing by neutrophil extracellular traps (NETs). NETs consist of extruded nuclear DNA webs decorated with granule proteins. Although NET formation is an important innate immune mechanism, uncontrolled NET release damages host tissues and has been linked to several diseases including cystic fibrosis (CF). The major CF airway pathogen Pseudomonas aeruginosa establishes chronic infection. Pseudomonas imbedded within biofilms is protected against the immune system, but maintains chronic inflammation that worsens disease symptoms. Aberrant NET release from recruited neutrophils was found in CF, but the underlying mechanisms remain unclear. One of the most important Pseudomonas virulence factors is pyocyanin, a redox-active pigment that has been associated with diminished lung function in CF. Here we show that pyocyanin promotes NET formation in a time- and dose-dependent manner. Most CF Pseudomonas clinical isolates tested produce pyocyanin in vitro. Pyocyanin-derived reactive oxygen species are required for its NET release. Inhibitor experiments demonstrated involvement of Jun N-terminal Kinase (JNK) and phosphatidylinositol 3-Kinase (PI3K) in pyocyanin-induced NET formation. Pyocyanin-induced NETs also require the NADPH oxidase because NET release in chronic granulomatous disease neutrophils was greatly reduced. Comparison of neutrophils from gp91phox- and p47phox-deficient patients revealed that pyocyanin-triggered NET formation is proportional to their residual superoxide production. Our studies identify pyocyanin as the first secreted bacterial toxin that enhances NET formation. The involvement of NADPH oxidase in pyocyanin-induced NET formation represents a novel mechanism of pyocyanin toxicity
CT and MRI of Hepatic Abscess in Patients with Chronic Granulomatous Disease
We describe the spectrum of radiologic appearances of hepatic
abscesses in patients with chronic granulomatous disease (CGD), a hereditary
immunodeficiency presenting in childhood that occurs at a rate of 1 in
200,000-250,000 live births and predisposes patients to infection with
catalase-positive organisms. CONCLUSION: Hepatic abscesses in patients with CGD
show an atypical radiologic appearance compared with sporadic hepatic abscesses,
and they are characterized by homogeneous enhancement and multiseptal
enhancement. In the appropriate clinical setting, the appearance of an enhancing
mass should suggest the possibility of a CGD-related hepatic absces
Hepatic abnormalities in patients with chronic granulomatous disease
Chronic granulomatous disease (CGD) is a rare congenital disorder characterized
by repeated bacterial and fungal infections. Aside from a high incidence of liver
abscess, little is known about hepatic involvement in CGD. The aim of this study
was to describe the spectrum of liver abnormalities seen in CGD. The charts of
194 patients with CGD followed at the NIH were reviewed, with a focus on liver
abnormalities. Liver enzyme elevations occurred on at least one occasion in 73%
of patients during a mean of 8.9 years of follow-up. ALT elevations were
generally transient. Although transient alkaline phosphatase (ALP) elevations
were also common, persistent ALP elevations lasting up to 17.6 years were seen in
25% of patients. Liver abscess occurred in 35% of patients. Drug-induced
hepatotoxicity was documented in 15% of patients but likely occurred more
frequently. Hepatomegaly was found in 34% and splenomegaly in 56% of patients.
Liver histology showed granulomata in 75% and lobular hepatitis in 90% of
specimens. Venopathy of the portal vein was common (80%) and associated with
splenomegaly. Venopathy of the central vein was also common (63%) and was
associated with the number of abscess episodes. Nodular regenerative hyperplasia
(NRH) was seen in 9 patients, including 6 of 12 autopsy specimens. CONCLUSION:
Liver enzyme abnormalities occur frequently in patients with CGD. In addition to
liver abscesses and granulomata, drug hepatotoxicity is likely underappreciated.
Vascular lesions such as venopathy and--to a lesser extent--NRH are common. The
cause and clinical consequences of venopathy await prospective evaluation
Lentiviral hematopoietic stem cell gene therapy for X-linked severe combined immunodeficiency
-linked severe combined immunodeficiency (SCID-X1) is a profound deficiency of T, B, and natural killer (NK) cell immunity caused by mutations in IL2RG encoding the common chain (γc) of several interleukin receptors. Gamma-retroviral (γRV) gene therapy of SCID-X1 infants without conditioning restores T cell immunity without B or NK cell correction, but similar treatment fails in older SCID-X1 children. We used a lentiviral gene therapy approach to treat five SCID-X1 patients with persistent immune dysfunction despite haploidentical hematopoietic stem cell (HSC) transplant in infancy. Follow-up data from two older patients demonstrate that lentiviral vector γc transduced autologous HSC gene therapy after nonmyeloablative busulfan conditioning achieves selective expansion of gene-marked T, NK, and B cells, which is associated with sustained restoration of humoral responses to immunization and clinical improvement at 2 to 3 years after treatment. Similar gene marking levels have been achieved in three younger patients, albeit with only 6 to 9 months of follow-up. Lentiviral gene therapy with reduced-intensity conditioning appears safe and can restore humoral immune function to posthaploidentical transplant older patients with SCID-X1
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