Postmortem study of organ-specific toxicity in glioblastoma patients treated with a combination of temozolomide, irinotecan and bevacizumab.

PURPOSE: Systemic chemotherapy including monotherapy with temozolomide (TMZ) or bevacizumab (BEV); two-drug combinations, such as irinotecan (IRI) and BEV, TMZ and BEV and a three-drug combination with TMZ, IRI and BEV (TIB) have been used in treating patients with progressive high-grade gliomas including glioblastoma (GBM). Most patients tolerated these regimens well with known side effects of hypertension, proteinuria, and reversible clinical myelosuppression (CM). However, organ- or system- specific toxicities from chemotherapy agents have never been examined by postmortem study. This is the largest cohort used to address this issue in glioma patients. METHODS: Postmortem tissues (from all major systems and organs) were prospectively collected and examined by standard institution autopsy and neuropathological procedures from 76 subjects, including gliomas (N = 68, 44/M, and 24/F) and brain metastases (N = 8, 5/M, and 3/F) between 2009 and 2019. Standard hematoxylin and eosin (H&E) were performed on all major organs including brain specimens. Electronic microscopic (EM) study was carried out on 14 selected subject's kidney samples per standard EM protocol. Medical records were reviewed with adverse events (AEs) analyzed and graded according to the Common Terminology Criteria for Adverse Events (CTCAE), version 4.03. A swimmer plot was utilized to visualize the timelines of patient history by treatment group. The binary logistic regression models were performed to explore any associations between treatment strategies and incident myelosuppression. RESULTS: Twenty-four glioma subjects were treated with TIB [median: 5.5 (range: 1-25) cycles] at tumor recurrence. Exposure to IRI significantly increased the frequency of CM (p = 0.05). No unexpected adverse events clinically, or permanent end-organ damage during postmortem examination was identified in glioma subjects who had received standard or prolonged duration of BEV, TMZ or TIB regimen-based chemotherapies except rare events of bone marrow suppression. The most common causes of death (COD) were tumor progression (63.2%, N = 43) followed by aspiration pneumonia (48.5%, N = 33) in glioma subjects. No COD was attributed to acute toxicity from TIB. The study also demonstrated that postmortem kidney specimen is unsuitable for studying renal ultrastructural pathological changes due to autolysis. CONCLUSION: There is no organ or system toxicity by postmortem examinations among glioma subjects who received BEV, TMZ or TIB regimen-based chemotherapies regardless of durations except for occasional bone marrow suppression and reversible myelosuppression clinically. IRI, but not the extended use of TMZ, significantly increased CM in recurrent glioma patients. COD most commonly resulted from glioma tumor progression with infiltration to brain stem and aspiration pneumonia.

Summary of expression of SPARC protein in cutaneous vascular neoplasms and mimickers.

BACKGROUND: Serum protein acidic and rich in cysteine (SPARC) is a matricellular glycoprotein, which regulates cell proliferation and facilitates intracellular transport of albumin bound particles including chemotherapeutic agents such as Nab-paclitaxel/ABI-007. Therefore the presence of SPARC may achieve higher intra-tumoral drug concentration with lower dosage and thus reduce systemic side-effects. Several trials of ABI-007, in melanoma, show promising clinical activity. DESIGN: Fifty-four cases of dermal based neoplasms were retrieved including 24 angiosarcomas (AS), 10 hemangiomas, 9 nodular melanomas, 4 Kaposi sarcomas (KS), 3 leiomyosarcomas (LMS), 3 atypical fibroxanthomas (AFX) and 1 spindle cell squamous cell carcinoma (SSCC). SPARC immunohistochemistry (IHC) was performed with a mouse monoclonal antibody. RESULTS: SPARC expression was detected in a majority of AS (17/24), melanomas (8/9), AFX (3/3), LMS (3/3) and KS (4/4) with some expression in hemangiomas (3/10), while being negative in SSCC (0/1); and was significantly associated with tumor group (p = 0.017). Although a significant difference in overall survival was observed between SPARC expression groups (positive vs. negative) for all patients, there was no significant difference noted among angiosarcoma patients. CONCLUSION: We have confirmed the presence of SPARC expression in melanoma, KS, LMS and AS and also detected it for the first time in AFX. Since paclitaxel has shown some effectiveness in AS, melanoma and KS, ABI-007 could also be beneficial in these patients.

Sirolimus therapy in infants with severe hyperinsulinemic hypoglycemia.

Hyperinsulinemic hypoglycemia is the most common cause of severe, persistent neonatal hypoglycemia. The treatment of hyperinsulinemic hypoglycemia that is unresponsive to diazoxide is subtotal pancreatectomy. We examined the effectiveness of the mammalian target of rapamycin (mTOR) inhibitor sirolimus in four infants with severe hyperinsulinemic hypoglycemia that had been unresponsive to maximal doses of diazoxide (20 mg per kilogram of body weight per day) and octreotide (35 µg per kilogram per day). All the patients had a clear glycemic response to sirolimus, although one patient required a small dose of octreotide to maintain normoglycemia. There were no major adverse events during 1 year of follow-up.

Successful Treatment of Recurrent Li-Fraumeni Syndrome-related Choroid Plexus Carcinoma.

The management of choroid plexus carcinoma (CPC) is challenging and multifaceted. Here, we discuss a 3-year-old girl with CPC and Li-Fraumeni syndrome who achieved full remission after surgery and chemotherapy, with radiation therapy spared. At recurrence, we used a novel, standard-dose cytotoxic chemotherapy regimen, focal proton radiation therapy, and targeted agents based on morphoproteomic analysis to achieve long-term survival. We highlight the rationale for our therapy at recurrence, as well as the risk-benefit analyses necessary in decision making for these patients. Our strategy may be effective in managing other patients with recurrent CPC and Li-Fraumeni syndrome.

Oral mycobiome analysis of HIV-infected patients: identification of Pichia as an antagonist of opportunistic fungi.

Oral microbiota contribute to health and disease, and their disruption may influence the course of oral diseases. Here, we used pyrosequencing to characterize the oral bacteriome and mycobiome of 12 HIV-infected patients and matched 12 uninfected controls. The number of bacterial and fungal genera in individuals ranged between 8-14 and 1-9, among uninfected and HIV-infected participants, respectively. The core oral bacteriome (COB) comprised 14 genera, of which 13 were common between the two groups. In contrast, the core oral mycobiome (COM) differed between HIV-infected and uninfected individuals, with Candida being the predominant fungus in both groups. Among Candida species, C. albicans was the most common (58% in uninfected and 83% in HIV-infected participants). Furthermore, 15 and 12 bacteria-fungi pairs were correlated significantly within uninfected and HIV-infected groups, respectively. Increase in Candida colonization was associated with a concomitant decrease in the abundance of Pichia, suggesting antagonism. We found that Pichia spent medium (PSM) inhibited growth of Candida, Aspergillus and Fusarium. Moreover, Pichia cells and PSM inhibited Candida biofilms (P = .002 and .02, respectively, compared to untreated controls). The mechanism by which Pichia inhibited Candida involved nutrient limitation, and modulation of growth and virulence factors. Finally, in an experimental murine model of oral candidiasis, we demonstrated that mice treated with PSM exhibited significantly lower infection score (P = .011) and fungal burden (P = .04) compared to untreated mice. Moreover, tongues of PSM-treated mice had few hyphae and intact epithelium, while vehicle- and nystatin-treated mice exhibited extensive fungal invasion of tissue with epithelial disruption. These results showed that PSM was efficacious against oral candidiasis in vitro and in vivo. The inhibitory activity of PSM was associated with secretory protein/s. Our findings provide the first evidence of interaction among members of the oral mycobiota, and identifies a potential novel antifungal.

A model for cardiomyocyte cell death: insights into mechanisms of oncosis.

It is now known that there are at least two basic patterns of cell injury progressing to cell death: cell injury with swelling, known as oncosis, and cell injury with shrinkage, known as apoptosis. Both types of cell death are "programmed" in the sense that the genetic information and many of the enzymes and other factors pre-exist in the cell. Previous investigation has pointed to cardiomyocyte ischemic injury evolving as the oncotic pattern of injury, although apoptosis has also been implicated. This study was designed, using a unique cell model system, to gain insight into the molecular events of anticancer agent-induced cardiomyocyte injury. Cardiomyocytes exposed for 2 h to 1.5 µg/ml sanguinarine consistently displayed the morphology of apoptosis in over 80% of cells, whereas a higher dose of 25 µg/ml at 2 h yielded the pattern of oncosis in over 90% of cells. Microarray analysis revealed altered expression of 2514 probes in sanguinarine-induced oncosis and 1643 probes in apoptosis at a level of significance of p<0.001. Some of the inductions such as perforin were found to be higher than 11-fold in oncosis. When perforin was blocked by perforin-specific siRNA we found a reduction in oncotic cell death. These results strengthen the notion that oncosis is not representative of nonspecific necrosis, but constitutes a genetically controlled form of "programmed cell death"; and also that oncosis might represent a pathogenetic mechanism of cardiomyocyte injury. This is also the first demonstration of the involvement of perforin in cardiomyocyte oncosis.

COVID-19 and Early Post-Primary TB: Commonalities of Pathobiology in Pneumonitis and Therapies.

OBJECTIVE: Concurrent infection with COVID-19 and M. tuberculosis has been reported to be more severe than either alone, resulting in increased mortality. Our objective was to define the shared pathobiology of COVID-19 and the developmental stage of TB in the lung and explore adjunctive therapies to treat such commonalities. METHODS: Since morphoproteomics combines the disciplines of histopathology, molecular biology and protein chemistry to paint a portrait of the protein circuitry in diseased cells for the purpose of uncovering targets amenable to specific intervention [1], we used morphoproteomic analyses to study lung tissues of patients with early post-primary tuberculosis or COVID-19 infection. RESULTS: These studies showed co-localization of the COVID-19 virus and M. tuberculosis antigens with cyclo-oxygenase-2 and fatty acid synthase in the reactive alveolar pneumocytes and with programmed death-ligand 1 expression on the alveolar interstitium and alveolar pneumocytes. This was associated with accumulation of pro-infectious M2 polarized macrophages in the alveolar spaces. CONCLUSION: The commonalities in these pathways suggest that they might be susceptible to adjunctive therapies with metformin and vitamin D3. This is supported by published studies that metformin and vitamin D3 could reduce the severity of both COVID-19 and early post-primary TB infections.

Review: Mammalian Target of Rapamycin (mTOR) Pathway Is Critical in Developing Most Renal Cell Tumors.

OBJECTIVE: Various renal cell carcinomas (RCC) are derived from different segments of the renal tubular origin, which determines their morphological and immunohistochemical phenotype and their molecular signaling pathway as a therapeutic target. Most of these tumors utilize the mammalian target of rapamycin (mTOR) pathway to activate pathways involving metabolic and nutritional supplies. METHODS: Overexpressed mTOR signals are reported in more than 90% of the most common types of RCC. Many new renal tumor entities have been reported in recent years. RESULTS: Among them, somatic mutations in tuberous sclerosis complex (TSC) result in loss of its normal inhibitory control over mTOR, thus promoting mTOR-associated proliferative activities in several new renal neoplastic entities including RCC with fibromyomatous stroma (RCCFMS), eosinophilic vacuolated tumor, eosinophilic solid & cystic RCC, and low-grade oncocytic tumor. CONCLUSIONS: This short review provides a comprehensive correlation of tumor morphology and immunohistochemical phenotype with renal tubular differentiation and their shared mTOR. These essential pieces of knowledge are vital in the diagnosis and clinical management of renal cell neoplasms.

Preliminary experience with personalized and targeted therapy for pediatric brain tumors.

BACKGROUND: A new generation of anticancer drugs has reached clinical care in common diseases, but their use in rare diseases such as pediatric brain tumors lags behind since conventional clinical trial design requires larger patient numbers. PROCEDURE: We designed individualized treatment protocols for pediatric patients with relapsed brain tumors, based upon the patient's treatment history. In addition, each tumor was analyzed with morphoproteomics using a panel of markers to show treatment targets, resulting in a list of potential novel drugs to be added to chemotherapy. Here, we present the concept and report the experiences of the first patients enrolled in the program. RESULTS: Eleven treatment protocols were designed using morphoproteomic information and given to eight patients. The histological diagnoses included: medulloblastoma (n = 3), glioblastoma multiforme (n = 2), atypical teratoid rhabdoid tumor (n = 1), choroid plexus carcinoma (n = 1), and primitive neuroectodermal tumors (n = 1). Tumor markers included p-ERK, Topoisomerase IIa, Bcl-2, VEGF-A, p-STAT3, ER-beta, p-mTOR, and p-NF-kappaBp65. The novel agents included sorafenib, bevacizumab, fulvestrant, rapamycin, bortezomib, and curcumin. The response to the first protocol was complete response: 1, partial response: 1, stable disease: 0, progressive disease: 4, and continuous complete remission: 2. The median Event-Free Survival was 0.32 year ± 0.4. For the comparison with the institutional control group, the individual response probability was calculated. The observed response was superior to the historical controls (P = 0.006 Whitman U-test). CONCLUSION: This approach warrants further, systematic evaluation as proof of concept and then expansion to drug-specific hypotheses.

Confined space entry past, present, and future: where do we go from here?

Specialized equipment, changes to procedures, non-entry by design, and customized/creative approaches can eliminate or reduce the frequency of the need to enter confined spaces. Plan now for later, and be creative. Just because it has always been done this way does not mean it must be done this way in the future. Consider the new safety hazards that may be created, but always remember: The safest entry is no entry at all!

Morphoproteomic Features of Pulmonary Influenza A (H1N1) with Therapeutic Implications: A Case Study.

OBJECTIVE: Influenza pandemic of the human lung was caused by the Influenza A (H1N1) over 100 years ago in 1918, but it recurred in pandemic fashion in 2009. Understanding the pathobiology of this infectious agent in the human lung could lead to adjuvant therapies that are relatively non-toxic and reduce the mortality of the human host. Overall, our objective was to apply morphoproteomics to pulmonary lung sections from an autopsied victim so that we may better define its biology from the perspective of its interaction with the host and provide options for therapeutic targets. METHODS: Morphoproteomic analysis from a case study of this Influenza A (H1N1) pulmonary infection included immunohistochemical probes to detect the expressions of fatty acid synthase (FAS), CD163+ (M2 polarized monocytes/macrophages), and programmed death-ligand 1 (PD-L1) expression as part of the host response to interaction with the Influenza A (H1N1) virus. RESULTS: Representative sections of the Influenza A (H1N1) victim's lung showed: cytoplasmic expression of FAS in most of the sloughed and atypical alveolar pneumocytes; abundance of intra-alveolar and alveolar interstitial CD163+ macrophages/monocytes; and PD-L1 expression on occasional macrophages, and focally on collections of alveolar pneumocytes and the alveolar interstitium. CONCLUSION: Morphoproteomics and microanatomical features coincide with the etiopathogenic features of pulmonary Influenza A (H1N1) infection and the host response. This plus data mining of the medical literature suggests that adjunctive, targeted therapy such as metformin and vitamin D3 could address the biology of Influenza A (H1N1) pneumonia, enhance the host immune response, and prevent its progression to a life-threatening, ventilator-dependent clinical situation.

Morphoproteomics Identifies SIRT1, EZH2 and CXCR4 Pathways in Diffuse Large B-Cell Lymphoma: Therapeutic Implications.

OBJECTIVE: Diffuse large B-cell lymphoma (DLBCL) is the most aggressive form of non-Hodgkin's lymphoma. METHODS: We applied morphoproteomics to a tissue microarray of DLBCL cases to uncover commonalities in its biology with therapeutic implications. Morphoproteomic analysis of 9 individual cases of classic DLBCL included immunohistochemical probes to detect silent mating type information regulation 2 homolog 1 (SIRT1), enhancer of Zeste homolog 2 (EZH2) and C-X-C chemokine receptor 4 (CXCR4) and their cellular compartmentalization by bright field microscopy. RESULTS: We detected the expression of SIRT1 in the majority (>50%) of the tumoral nuclei of 8 of 9 cases of DLBCL and of EZH2 expression in the majority (>50%) of the tumoral nuclei in 9 of the 9 cases; and the expression of the tumoral stem cell marker, CXCR4 in the cytoplasmic and/or plasmalemmal compartment at >50% of the tumor cells in all 9 cases of DLBCL. The morphoproteomic findings of SIRT1 and EZH2 expression in DLBCL, for the most part, parallel the morphoproteomic findings in B-cell acute lymphoblastic leukemia. This concordance has pharmacogenomic and therapeutic implications. Similarly, the fact that EZH2 can enhance the expression of tumoral stem cell marker, CXCR4 implies that there is a block in differentiation in DLBCL. CONCLUSION: By targeting the Sirt1, EZH2 and CXCR4 pathways using relatively non-toxic adjuvant therapeutic agents such as metformin, melatonin, curcumin, sulforaphane, vitamin D3 and plerixafor, we should be able to target the biology of DLBCL.

Morphoproteomics demonstrates activation of mammalian target of rapamycin pathway in papillary thyroid carcinomas with nuclear translocation of MTOR in aggressive histological variants.

We used morphoproteomics to investigate mammalian target of rapamycin (MTOR) signaling pathway in papillary thyroid carcinomas and correlated the results with clinicopathological parameters. Archival paraffin-embedded tissue of papillary thyroid carcinomas was obtained from 30 patients, including 15 classical type and 8 follicular, 4 tall-cell, 1 columnar-cell, 1 diffuse sclerosing and 1 cribriform variants. Immunohistochemical stains were performed for three phosphorylated (p) protein analytes: p-MTOR (Ser2448), p-Akt (Ser473) and p-p70S6K (Thr389). Chromogenic signals and subcellular compartmentalization (nuclear, cytoplasmic and plasmalemmal) were evaluated. Clinicopathological parameters were reviewed. Immunoreactivities for p-MTOR, p-Akt and p-p70S6K were observed in all papillary thyroid carcinomas. In addition to an expression of p-MTOR in cytoplasmic location, nuclear translocation of p-MTOR with variable loss of plasmalemmal expression, and with concomitant nuclear expression of p-Akt, was also identified in all tall-cell, columnar-cell and diffuse sclerosing variants of papillary thyroid carcinoma. There were no significant differences in the clinicopathological parameters, including tumor size, extrathyroidal extension, angioinvasion and nodal metastases between the groups with and without nuclear expression of p-MTOR (P>0.05). The expressions of p-MTOR in cytoplasmic and/or plasmalemmal locations with the concomitant immunoreactivity for p-p70S6K in all papillary thyroid carcinomas indicate the activation of MTOR complex 1 pathway. The nuclear translocation of p-MTOR evidences the activation of MTOR complex 2 and is identified only in the known aggressive histological variants of papillary thyroid carcinoma, including tall-cell, columnar-cell and diffuse sclerosing variants. Thus, these results suggest the constitutive activation of MTOR signaling pathway in papillary thyroid carcinomas and provide a new insight of biogenetic basis for the aggressive histological variants of papillary thyroid carcinoma. The pattern of expression of p-MTOR in papillary thyroid carcinomas may serve as a diagnostic/prognostic marker and a potential therapeutic target.

Primary arteriovenous fistula inflow proximalization for patients at high risk for dialysis access-associated ischemic steal syndrome.

Establishing a functional vascular access while minimizing the risk of dialysis access-associated ischemic steal syndrome (DASS) may present a challenging problem in patients with severe peripheral vascular disease where even a low-flow arteriovenous fistula (AVF) may lead to severe symptoms and physical findings of DASS. Proximalization of arterial inflow for an existing vascular access is established as an effective treatment for DASS. We hypothesized that a primary proximal arterial inflow procedure for vascular access in patients judged to be at high risk for DASS would result in a successful hemodialysis access and mitigate the risk of steal syndrome. We report four such patients considered to be at significant risk for DASS after construction of a new vascular access. An axillary artery AVF inflow anastomosis was constructed in each patient. The access outflow configuration varied with the available venous outflow conduit identified during the preoperative ultrasound evaluation. In all four patients in this report, a functional autogenous dialysis access was established without DASS.

Commentary: Morphoproteomics and Data Mining of the Medical Literature Define the Pathobiology of COVID-19 Pneumonitis in Humans and Provide Adjuvant Therapeutic Options.

Due to the resurgence of COVID-19, understanding the biology of SARS-CoV-2 is an opportunity to develop adjuvant therapies that could target its pathobiology and lessen the severity of the COVID-19 infection so that our patients could survive. This commentary serves to accomplish this by using published morphoproteomic findings with data mining of the medical literature to define the pathobiology of COVID-19 pneumonitis and provide combinatorial and relatively non-toxic adjuvant therapies that have been successful against this viral infection.

Early Lesion of Post-Primary Tuberculosis: Subclinical Driver of Disease and Target for Vaccines and Host-Directed Therapies.

The characteristic lesion of primary tuberculosis is the granuloma as is widely studied in human tissues and animal models. Post-primary tuberculosis is different. It develops only in human lungs and begins as a prolonged subclinical obstructive lobular pneumonia that slowly accumulates mycobacterial antigens and host lipids in alveolar macrophages with nearby highly sensitized T cells. After several months, the lesions undergo necrosis to produce a mass of caseous pneumonia large enough to fragment and be coughed out to produce a cavity or be retained as the focus of a post-primary granuloma. Bacteria grow massively on the cavity wall where they can be coughed out to infect new people. Here we extend these findings with the demonstration of secreted mycobacterial antigens, but not acid fast bacilli (AFB) of M. tuberculosis in the cytoplasm of ciliated bronchiolar epithelium and alveolar pneumocytes in association with elements of the programmed death ligand 1 (PD-L1), cyclo-oxygenase (COX)-2, and fatty acid synthase (FAS) pathways in the early lesion. This suggests that M. tuberculosis uses its secreted antigens to coordinate prolonged subclinical development of the early lesions in preparation for a necrotizing reaction sufficient to produce a cavity, post-primary granulomas, and fibrocaseous disease.

A Brief History, the Progress in the Variants of Therapies against Metastatic Neoplasms, and the Role of Pathologists.

Chemotherapy originated in the early 1960s. The initial chemotherapeutic agents focused on blocking metabolic pathways and found substantial success in certain types of tumors, but they are generally considered toxic to all normal and tumor cells, and they have significant side effects. As more scientific studies began to identify many new, specific targets and mutations, along with a multitude of growth pathways in tumor cells, new agents targeting cell growth pathways began to emerge in the late 1990s and early 2000s. In 2003, a method called morphoproteomics was developed to evaluate the immunohistochemical protein expressions of target markers in tumors, and it has been considered a pioneering method for guiding targeted therapy. Subsequently, many genomic techniques have been established for identifying specific mutations and tumor markers in order to guide the targeted therapy. More recently, immuno-oncology therapy targeting specific immune markers has been rapidly developed, and the immunohistochemical evaluation of specific immune markers such as PD-L1 demonstrates further expansion of oncologic morphoproteomics. This brief review will focus on the role of pathologists in developing various techniques and guiding targeted therapies during the era of personalized medicine.

Proteomics, morphoproteomics, saliva and breast cancer: an emerging approach to guide the delivery of individualised thermal therapy, thermochemotherapy and monitor therapy response.

The field of proteomics is in its infancy; however the discipline, its technology, and our abilities to translate the proteomic data are rapidly evolving. In the near future proteomics should significantly improve our ability to make early cancer diagnoses, direct appropriate personalised therapy, and monitor response to therapy, including thermal therapy. The potential role of proteomics in breast cancer early diagnosis, prediction of aggressiveness is clear. Its potential importance in guiding treatment choice and prediction of treatment response is especially intriguing. This paper reviews the varied methodologies used in the field of proteomics, including gel-free, label-free proteomics, quantitative proteomics, phosphoproteomics, protein extraction from formalin-fixed, paraffin-embedded tissue sections (FFPE) proteomics, laser capture microdissection proteomics, and targeted proteomics. It also discusses two new areas, morphoproteomics and salivary proteomics cancer diagnostics, as well as selected pre-clinical and clinical analyses using the described methodologies. Morphoproteomics defines which signal transduction pathways exist within the tumour cells and the surrounding tissue comprising a patient's cancer biopsy specimen. Morphoproteomics, and the other histology-based proteomic techniques are actually beginning to clinically make possible individualised treatment of breast cancer. Salivary proteomics, in part because it is non-invasive, is a new area of breast cancer diagnostics that can be used to non-invasively monitor an individual patient's response to treatment with every treatment cycle. The current literature demonstrates that a diagnosis of breast cancer can be readily made using proteomic methodologies, and that proteomics can also define cancers with a poor prognosis at the time of diagnosis. With such early prognostic information we expect proteomics will soon be a science that on the basis of prognosis, guides individualised therapy and as well, have the ability to monitor the results of thermal therapy, radiation, and chemotherapy treatment during therapy.

Commentary: Pharmacologic Correlates that Address the Clinicopathobiology of COVID-19.

COVID-19 could remain a pandemic until we get a SARS-CoV-2 vaccine to immunize the world population. In the interim, we have the opportunity to consider its clinicopathobiology in the context of the pharmacologic correlates available from the existing medical literature to prevent the COVID-19 infected patient from progressing into a fatal stage. This commentary serves as a forum for that end and suggests relatively non-toxic therapies that could be applied in a combinatorial fashion for consideration by the physicians and their patients with COVID-19 infection.