The potential role of pumpkin seeds oil on methotrexate-induced lung toxicity

Microneedles integrated with atorvastatin-loaded pumpkisomes for breast cancer therapy: A localized delivery approach

Breast cancer is the most common invasive cancer in women worldwide, having a significant impact on women's well-being. Early diagnosis of breast cancer followed by appropriate treatment is considered the best survival factor. Microneedles (MN) have been utilized for non-invasive localized breast cancer treatment. The combination of nano-carriers with MN technology represents an appealing strategy for improving drug delivery efficacy. It is worth noting that atorvastatin (ATV) has received substantial interest as a drug with potential anticancer activity. Our study aimed to formulate an ATV-loaded bioactive pumpkin seed oil vesicular nanocarrier; pumpkisomes (PUMP) for enhanced localized delivery to breast cancer using MN. The selected PUMP formulation had a particle size of 151.8 ± 2.7 nm, zeta potential of -54.1 mV, and % entrapment efficiency of 73 %. PUMP showed a sustained ATV release, potent selective cytotoxic effect (IC50 of 2.82 ± 0.02 μg/mL), enhanced internalization (2.8-fold increase compared to the free drug), and potent anti-migratory effect on MDA-MB-231 cells (21.15 ± 3.6 % wound closure compared to 80.81 ± 4.1 % for free drug). Moreover, integrating ATV-PUMP in dissolving microneedles (ATV-PUMP@dMN) showed a quick dissolution rate and appropriate mechanical strength with high piercing efficiency. ATV permeation across the skin from ATV-PUMP@dMN was also improved (1.8-fold increase compared to ATV-PUMP@gel). ATV-PUMP@dMN demonstrated an efficient anticancer effect when applied in an Ehrlich ascites mammary tumor model attaining significant improvement in ATV antiproliferative (PTEN and Ki-67), antiangiogenic (VEGF) and apoptotic (Bcl2, Bax and caspase3) effects restoring tumor biomarkers to levels comparable to the negative control group. Thus, our study presents PUMP as a novel and promising bioactive vesicular nanosystem with potential synergistic effect with ATV or other antitumor drugs. PUMP-integrated MN could be considered a promising platform for future applications in localized breast cancer therapy.

Therapeutic single-cell landscape: methotrexate exacerbates interstitial lung disease by compromising the stemness of alveolar epithelial cells under systemic inflammation

BACKGROUND

Interstitial lung disease (ILD) poses a serious threat in patients with rheumatoid arthritis (RA). However, the impact of cornerstone drugs, including methotrexate (MTX) and TNF inhibitor, on RA-associated ILD (RA-ILD) remains controversial.

METHODS

Using an SKG mouse model and single-cell transcriptomics, we investigated the effects of MTX and TNF blockade on ILD.

FINDINGS

Our study revealed that MTX exacerbates pulmonary inflammation by promoting immune cell infiltration, Th17 activation, and fibrosis. In contrast, TNF inhibitor ameliorates these features and inhibits ILD progression. Analysis of data from a human RA-ILD cohort revealed that patients with ILD progression had persistently higher systemic inflammation than those without progression, particularly among the subgroup undergoing MTX treatment.

INTERPRETATION

These findings highlight the need for personalized therapeutic approaches in RA-ILD, given the divergent outcomes of MTX and TNF inhibitor.

FUNDING

This work was funded by GENINUS Inc., and the National Research Foundation of Korea, and Seoul National University Hospital.

Pumpkin seed oil lessens the colchicine-induced altered sex male hormone balance, testicular oxidative status, sperm abnormalities, and collagen deposition in male rats via Caspase3/Desmin/PCNA modulation

This study examined the efficiency of pumpkin seed oil (PSO) to rescue the colchicine (CHC)-induced adverse impacts on sperm characteristics, male sex hormones, testicular architecture, oxidative status, DNA content, collagen deposition, and immune expression of desmin and PCNA. Male Sprague Dawley rats were divided into four experimental groups (n = 10 each): control (distilled water), CHC (0.6 mg/kg b.wt), PSO (4 mL/kg b.wt), and CHC + PSO. After 60 days of dosing, CHC significantly reduced sperm motility (19%), sperm concentration (38%), estradiol (52%), testosterone (37%), luteinizing hormone (54%), and follicle-stimulating hormone (29%) compared to the control. Yet, the testicular tissues of CHC-administered rats exhibited elevated abnormal sperms (156%), malondialdehyde (354%), lactate dehydrogenase (73%), Caspase-3 (66%), and 8-hydroxyguanosine (65%) but lower reduced glutathione (74%), catalase (73%), and superoxide dismutase (78%) compared to the control group. Moreover, CHC induced testicular degeneration, distorted seminiferous tubules, apoptotic cells, exfoliated spermatogenic cells, reduced DNA content, decreased PCNA and desmin immune-expression, and increased collagen deposition. PSO effectively reversed the CHC-induced alterations in sperm quality and testicular function and architecture, likely through its antioxidant, antifibrotic, anti-apoptotic, and DNA-protective properties. These results suggest that PSO may be a beneficial intervention for long-term CHC users and may protect against CHC-induced male reproductive toxicity.

Pumpkin and Pumpkin Byproducts: Phytochemical Constitutes, Food Application and Health Benefits

Nowadays, agricultural waste byproducts are exploited in the food industry rather than discarded. Pumpkin is one of the most significant vegetable crops that is widely consumed in farmland and certain urban regions. The current study was designed to measure the phytochemical constituents, food application, health benefits, and toxicity of pumpkin and pumpkin byproducts. Pumpkins and pumpkin byproducts (seeds, leaf, and skin/peel) can be utilized as functional ingredients. Different parts of the pumpkin contain bioactive compounds including carotenoids, lutein, zeaxanthin, vitamin E, ascorbic acid, phytosterols, selenium, and linoleic acid. Pumpkin is used in various food sectors as a functional food, including baking, beverages, meat, and dairy industries. Furthermore, the leaves and pulp of the pumpkin are used to produce soups, purees, jams, and pies. Different parts of pumpkins have several health benefits such as antidiabetic, antioxidant, anticancer, and anti-inflammatory effects. Therefore, this review paper elaborates on the pumpkins and pumpkin byproducts that can be used to develop food products and may be valuable against various diseases.