Resmetirom: Finally, the Light at the End of the NASH Tunnel?

Nonalcoholic steatohepatitis (NASH) is a double composite word that was first coined in 1980 by Ludwig and Colleagues [...]


Introduction
Nonalcoholic steatohepatitis (NASH) is a double composite word that was first coined in 1980 by Ludwig and Colleagues [1].These authors reported on a series of 20 individuals, predominantly women, who were moderately obese, often had type 2 diabetes and gallstones, and sought hepatological consultation owing to enlarged livers and mildly raised liver tests.Liver biopsy findings of these subjects exhibited fatty changes, lobular hepatitis, focal necrosis, inflammatory infiltrates (with mononuclear cells and/or neutrophils), and, in most instances, Mallory bodies; liver fibrosis was identified in most cases, and three patients had histological evidence consistent with liver cirrhosis.Ludwig and Colleagues concluded by stating that "currently, we know of no effective therapy" [1].
The absence of any effective management option, other than lifestyle changes, has lasted for forty-four years since the seminal paper by Ludwig and Colleagues was published [1], and innumerable NASH clinical trials have yielded disappointing results [2,3].However, recently, Harrison et al. [4], based on an analysis conducted in approximately one thousand individuals, published a breakthrough article announcing that, irrespective of the oral dose used (i.e., 80 mg or 100 mg daily), resmetirom was better than placebo regarding the outcomes of resolved NASH (in 25.9 to 29.9% of individuals treated with resmetirom vs. 9.7% of those assigned to placebo) and improved liver fibrosis by ≥1 stage without any worsening of the NAFLD activity score (NAS), which is assessed by summing up scores of steatosis (0-3), lobular inflammation (0-3), and hepatocyte ballooning (0-2) [5] (in 24.2 to 25.9% of patients receiving resmetirom compared to 14.2% of those receiving placebo).
Interestingly, resmetirom also improved atherogenic dyslipidemia while exerting neutral effects on body weight, insulin resistance, and glycemia.Similarly, the drug affected neither the cardiovasculature (i.e., heart rate and blood pressure) nor the endocrine system, and the profile of undesired effects, which occurred more often with resmetirom than with placebo, comprised often transient, mild, gastrointestinal complaints (nausea, vomiting, and diarrhea) [4].
Given that resmetirom is a selective agonist of thyroid hormone receptor (THR) beta [6], the logical question is this: what has NASH to do with the thyroid?To answer this question, the histological features and pathogenic determinants of NASH need to be pinpointed first.
Among the innumerable reasons explaining the failures of NASH trials before the advent of resmetirom, there is the scarcely appreciated notion that NASH is invariably accompanied by a complex picture of systemic metabolic dysfunction [11].For example, each of the individual elementary components of NASH histology invariably recognizes metabolic determinants [12], strongly supporting the notion that, being a systemic condition owing to general metabolic dysfunction, NASH therefore requests a multidisciplinary and holistic approach [3].
Pioneering studies highlighting the interconnections among endocrine derangements and the development of nonalcoholic fatty liver disease (NAFLD) and its progression to NASH [13,14] have laid the foundations for clearly differentiating "hypothyroidisminduced NAFLD" from other "primary" NAFLD forms [15,16].This notion has universally been accepted by subsequent studies [17,18].In parallel, strong epidemiological evidence has indicated that hypothyroidism is also tightly associated with the development and fibrotic progression of NAFLD and NASH [19][20][21][22].This association has recently been found to be sex-specific and mediated by adipokines/mitokines [23].
Understanding the relationship between NASH and thyroid function in healthy states is critical for conceptualizing how hypothyroidism perturbs this relation [24,25].In the liver, thyroid hormones (THs) regulate energy and metabolic homeostasis by modulating the export of lipids from the hepatocyte into the bile and the blood stream, as well as their oxidation and de novo lipogenesis [26].Moreover, THs also control hepatic insulin sensitivity, suppress hepatic gluconeogenesis [26], and are involved in bile acid metabolism [27].Among the various signals implicated in the cross-talks between the thyroid and the liver [high thyroid-stimulating hormone (TSH) levels, low TH levels, and chronic inflammation], it is the role of the THR that is deemed to be essential in the pathogenesis of hypothyroidism-induced NAFLD [6,26].
Their beneficial cardiometabolic effects (such as lowering LDL cholesterol, or reducing whole-body adiposity and body weight) explain why agonists of THRs (hence "thyromimetics") were among the first anti-obesity agents [28].However, this approach leads to undesired and ominous effects on the heart (e.g., tachycardia and sudden death) and musculo-skeletal system, prompting the research of safe thyromimetics that leverage the existence and different body distribution of THR isoforms: alpha and beta, which are found in the heart and liver, respectively [28].
Moreover, the use of non-selective agonists of THRs to treat NASH has raised concerns regarding the risks of accruing hepatic lipogenesis because of increased lipolysis in the adipose tissue; these concerns have prompted pioneering studies utilizing liver-targeted agonists of THR [29].

Conclusions and Research Agenda
Over a 44-year period, investigators have progressed from a state of global uncertainty, if not frank impotence, regarding the pharmacological treatment of NASH to developing an innovative thyromimetic drug-resmetirom.Notable steps along this scientific journey have included pioneering recognition that systemic administration of iodothyronines curtailed body weight gain and resulted in reductions in triglyceridemia, cholesterolemia, and hepatic steatosis in high-fat-diet-fed rats [32] However, these compounds could not enter the clinical arena owing to their unacceptable cardiovascular effects.To avoid these effects, hepato-specific thyromimetics have been modeled, including resmetirom, which has proven effective in fibrosing NASH.
Future, independent studies should be conducted in the post-marketing phase to document any unprecedented side effects while ascertaining whether, as expected, reduced liver fibrosis will eventually result in a reduced risk of liver-related (e.g., cirrhosis, liver failure, hepatocellular carcinoma) and other extra-hepatic (e.g., cardio-metabolic) outcomes.Additionally, investigators should be encouraged to consider combination therapies, as predicted many years ago [33], and to perform sex-specific analyses of data [34].
In conclusion, the robustness of biological rationale, and findings in experimental and human studies concur in supporting the notion that resemetirom represents a breakthrough in drug treatment of NASH with fibrosis [35,36].In this case, it seems unlikely that the light at the end of the tunnel is just the light of an oncoming train.Rather, the advent of resmetirom documents the successful multidisciplinary approach to complex medical topics achieved by integrating epidemiological evidence with pathophysiological and physio-pharmacological studies.